{ "results": [ { "id": "9bfa6dffa2e0dfb6ebc7ed7971c81f36", "title": "Quantum Device and Circuit Postdoctoral Researcher", "employer_name": "Lawrence Livermore National Laboratory", "employer_slug": "lawrence-livermore-national-laboratory", "location_text": "Livermore, CA, United States", "country": "US", "employment_type": "contract", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 123048, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 123048, "base_salary_max": null, "salary_disclosed": true, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": true, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-06-12T10:25:24.000Z", "apply_url": "https://jobs.smartrecruiters.com/LLNL/3743990013570582-quantum-device-and-circuit-postdoctoral-researcher", "apply_url_verified": false, "ats": "smartrecruiters", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Quantum Device and Circuit Postdoctoral Researcher Livermore, CA, United States Company Description: Join us and make YOUR mark on the World! Lawrence Livermore National Laboratory (LLNL) has turned bold ideas into world-changing impact advancing science and technology to strengthen U.S. security and promote global stability. Our mission spans four critical national security areas nuclear deterrence, threat preparedness, energy security, and multi-domain defense empowering teams to take on the toughest challenges of today and tomorrow. With a culture built on innovation and operational excellence, LLNL is a place where your expertise can make a real impact. Job Description: We have an opening for a Postdoctoral Researcher to participate in research developing quantum devices utilizing superconducting and quantum materials for applications in quantum computing and quantum sensing. The research will also include a cross-division appointment with the Nuclear & Chemical Sciences (NACS) Division for studying the implementation of such detectors for use in axion dark matter detection experiments. You will be an integral member of an interdisciplinary team responsible for conducting and supporting research to develop and characterize the performance of quantum amplifiers utilizing topological materials. You will also conduct research contributing to the design and testing of superconducting RF cavities. The position is in the Nanoscale, Surface, and Interface Science Group within the Materials for Emerging Applications and Extreme Conditions section of the Materials Science Division in the Physical and Life Sciences Directorate. This position requires full-time on-site presence due to the nature of the work. You will Design and conduct", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 44, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "engineering", "employer_industry": null, "employer_size": null, "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "top_secret", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.92a73547f78a1cfb2b", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "9bfa6dffa2e0dfb6ebc7ed7971c81f36", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Device and Circuit Postdoctoral Researcher Livermore, CA, United States Company Description: Join us and make YOUR mark on the World! Lawrence Livermore National Laboratory (LLNL) has turned bold ideas into world-changing impact advancing science and technology to strengthen U.S. security and promote global stability. Our mission spans four critical national security areas nuclear deterrence, threat preparedness, energy security, and multi-domain defense empowering teams to take on the toughest challenges of today and tomorrow. With a culture built on innovation and operational excellence, LLNL is a place where your expertise can make a real impact. Job Description: We have an opening for a Postdoctoral Researcher to participate in research developing quantum devices utilizing superconducting and quantum materials for applications in quantum computing and quantum sensing. The research will also include a cross-division appointment with the Nuclear & Chemical Sciences (NACS) Division for studying the implementation of such detectors for use in axion dark matter detection experiments. You will be an integral member of an interdisciplinary team responsible for conducting and supporting research to develop and characterize the performance of quantum amplifiers utilizing topological materials. You will also conduct research contributing to the design and testing of superconducting RF cavities. The position is in the Nanoscale, Surface, and Interface Science Group within the Materials for Emerging Applications and Extreme Conditions section of the Materials Science Division in the Physical and Life Sciences Directorate. This position requires full-time on-site presence due to the nature of the work. You will Design and conduct", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:9bfa6dffa2e0dfb6ebc7ed7971c81f36:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.a226b426c44352604d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "9bfa6dffa2e0dfb6ebc7ed7971c81f36", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Quantum Device and Circuit Postdoctoral Researcher", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:9bfa6dffa2e0dfb6ebc7ed7971c81f36:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.501d90668c27cb4bd5", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "9bfa6dffa2e0dfb6ebc7ed7971c81f36", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Quantum Device and Circuit Postdoctoral Researcher", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:5ba1736508b93162709dd43b", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.58730edfaa947f0650", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "9bfa6dffa2e0dfb6ebc7ed7971c81f36", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Quantum Device and Circuit Postdoctoral Researcher", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "07798dac5babd481d918f2b10232fe82", "title": "Quantum Engineer (Physicist)", "employer_name": "Quantum Circuits", "employer_slug": "quantum-circuits", "location_text": "New Haven, CT", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2021-07-15T21:53:17.975Z", "apply_url": "https://jobs.lever.co/quantumcircuits/fe61833d-20e0-4479-bb03-5ce230a703fa", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Quantum Engineer (Physicist) New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "data", "employer_industry": null, "employer_size": null, "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "none", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.5cf85d886e5909ca82", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Engineer (Physicist) New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:07798dac5babd481d918f2b10232fe82:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.e9678cbc772d152a83", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Engineer (Physicist) New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:07798dac5babd481d918f2b10232fe82:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.46b240bb10442beb2c", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:07798dac5babd481d918f2b10232fe82:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.98150310aede7b71a4", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:07798dac5babd481d918f2b10232fe82:employer:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.88dcb668f8fe5f544a", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Quantum Engineer (Physicist)", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:07798dac5babd481d918f2b10232fe82:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.ba2673c4fb379562cd", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Quantum Engineer (Physicist)", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:69a503cd33a1b8bffa97c968", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.074118b9b933085e00", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.a1be95588b8e0a45a8", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "07798dac5babd481d918f2b10232fe82", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Quantum Engineer (Physicist)", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "21b796d94aa56ec926e1b6e84ac0d4f3", "title": "Associate Quantum Engineer", "employer_name": "Quantum Circuits", "employer_slug": "quantum-circuits", "location_text": "New Haven, CT", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2024-06-28T17:03:24.069Z", "apply_url": "https://jobs.lever.co/quantumcircuits/d46448ee-2f1c-4ab2-81be-c1e772032d21", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Associate Quantum Engineer New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "data", "employer_industry": null, "employer_size": null, "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "bachelors", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.52d7cf3c5676d7a4d3", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Associate Quantum Engineer New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:21b796d94aa56ec926e1b6e84ac0d4f3:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.9fe0895410bbb42fcb", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Associate Quantum Engineer New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:21b796d94aa56ec926e1b6e84ac0d4f3:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.79f3f96521f47d6f2d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:21b796d94aa56ec926e1b6e84ac0d4f3:employer:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.d3ecdd715ffb636a70", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:21b796d94aa56ec926e1b6e84ac0d4f3:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.c1ac31b24b3e422e7d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Associate Quantum Engineer", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:21b796d94aa56ec926e1b6e84ac0d4f3:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.28bf091466a9cfed22", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Associate Quantum Engineer", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:370df249b652aa462783ddcf", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.5a4320446948ab95ca", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.911a4affc52da233b9", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "21b796d94aa56ec926e1b6e84ac0d4f3", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Associate Quantum Engineer", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "6564cc68d79d09e6977745360029df9b", "title": "Senior Quantum Embedded Engineer", "employer_name": "Quantum Circuits", "employer_slug": "quantum-circuits", "location_text": "New Haven, CT", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2025-10-02T13:12:54.064Z", "apply_url": "https://jobs.lever.co/quantumcircuits/8dd3964d-b8c4-42d9-ae8a-35237470e3db", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Senior Quantum Embedded Engineer New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking an experienced Senior FPGA Engineer to join our dynamic team and work on developing critical signal processing and real time control. The ideal candidate will have extensive experience with Python, System Verilog for synthesis and simulation, AMD Xilinx RFSoC, mixed signal processing, and system architecture design. Candidates should have a proven track record of tackling difficult FPGA problems and the ability to be productive in a small team. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking an experienced Senior FPGA Engineer to join our dynamic team and work on developing critical signal processing and real time control. The ideal candidate will have extensive experience with Python, System Verilog for synthesis and simulation, AMD Xilinx RFSoC, mixed signal processing, and system architecture design. Candidates should have a proven track record of tackling difficult FPGA problems and the ability", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 5, "years_experience_max": 9, "role_function": "data", "employer_industry": null, "employer_size": null, "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "none", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.6c17d414319c66251f", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Embedded Engineer New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking an experienced Senior FPGA Engineer to join our dynamic team and work on developing critical signal processing and real time control. The ideal candidate will have extensive experience with Python, System Verilog for synthesis and simulation, AMD Xilinx RFSoC, mixed signal processing, and system architecture design. Candidates should have a proven track record of tackling difficult FPGA problems and the ability to be productive in a small team. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking an experienced Senior FPGA Engineer to join our dynamic team and work on developing critical signal processing and real time control. The ideal candidate will have extensive experience with Python, System Verilog for synthesis and simulation, AMD Xilinx RFSoC, mixed signal processing, and system architecture design. Candidates should have a proven track record of tackling difficult FPGA problems and the ability", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6564cc68d79d09e6977745360029df9b:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.bc20b1363c91bca727", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Embedded Engineer New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking an experienced Senior FPGA Engineer to join our dynamic team and work on developing critical signal processing and real time control. The ideal candidate will have extensive experience with Python, System Verilog for synthesis and simulation, AMD Xilinx RFSoC, mixed signal processing, and system architecture design. Candidates should have a proven track record of tackling difficult FPGA problems and the ability to be productive in a small team. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking an experienced Senior FPGA Engineer to join our dynamic team and work on developing critical signal processing and real time control. The ideal candidate will have extensive experience with Python, System Verilog for synthesis and simulation, AMD Xilinx RFSoC, mixed signal processing, and system architecture design. Candidates should have a proven track record of tackling difficult FPGA problems and the ability", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6564cc68d79d09e6977745360029df9b:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.64a3f1a2c006e2772e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6564cc68d79d09e6977745360029df9b:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.b8f72a522a271e8fb2", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6564cc68d79d09e6977745360029df9b:employer:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.4c634ce6d5aea4b3a5", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Senior Quantum Embedded Engineer", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6564cc68d79d09e6977745360029df9b:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.7cda9e6c23c1c52b22", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Senior Quantum Embedded Engineer", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:e2128662ee02baa1a3444eb0", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.82a3a4509d70508a2f", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.b5180d05b7cda10c35", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6564cc68d79d09e6977745360029df9b", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Senior Quantum Embedded Engineer", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "title": "Senior Security Engineer", "employer_name": "Quantum Circuits", "employer_slug": "quantum-circuits", "location_text": "New Haven, CT", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2024-11-05T21:14:29.746Z", "apply_url": "https://jobs.lever.co/quantumcircuits/b07692ce-b447-4f14-a68c-f6b6b56cc097", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Senior Security Engineer New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Security Engineer to join our dynamic team. The ideal candidate has a strong background in evaluating and mitigating security vulnerabilities across on-premises and AWS environments and will be hands-on in assessing, designing, implementing, and maintaining a robust security posture for all systems. This ensures QCI's infrastructure is secure, resilient, and capable of supporting our cutting-edge quantum computing platform. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Security Engineer to join our dynamic team. The ideal candidate has a strong background in evaluating and mitigating security vulnerabilities across on-premises and AWS environments and will be hands-on in assessing, designing, implementing, and maintaining a robust security posture for all systems. This ensures QCI's infrastructure is secure, resilient, and capable of supporting our cutting-edge quantum computing platform. Key Responsibilities:", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 5, "years_experience_max": 9, "role_function": "data", "employer_industry": null, "employer_size": null, "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "none", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.5ca4b5d04a668006c3", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Security Engineer New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Security Engineer to join our dynamic team. The ideal candidate has a strong background in evaluating and mitigating security vulnerabilities across on-premises and AWS environments and will be hands-on in assessing, designing, implementing, and maintaining a robust security posture for all systems. This ensures QCI's infrastructure is secure, resilient, and capable of supporting our cutting-edge quantum computing platform. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Security Engineer to join our dynamic team. The ideal candidate has a strong background in evaluating and mitigating security vulnerabilities across on-premises and AWS environments and will be hands-on in assessing, designing, implementing, and maintaining a robust security posture for all systems. This ensures QCI's infrastructure is secure, resilient, and capable of supporting our cutting-edge quantum computing platform. Key Responsibilities:", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6ded99edcdd0b2d9c6c5c7132c2eed46:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.d8423302d7b316b625", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Security Engineer New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Security Engineer to join our dynamic team. The ideal candidate has a strong background in evaluating and mitigating security vulnerabilities across on-premises and AWS environments and will be hands-on in assessing, designing, implementing, and maintaining a robust security posture for all systems. This ensures QCI's infrastructure is secure, resilient, and capable of supporting our cutting-edge quantum computing platform. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Security Engineer to join our dynamic team. The ideal candidate has a strong background in evaluating and mitigating security vulnerabilities across on-premises and AWS environments and will be hands-on in assessing, designing, implementing, and maintaining a robust security posture for all systems. This ensures QCI's infrastructure is secure, resilient, and capable of supporting our cutting-edge quantum computing platform. Key Responsibilities:", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6ded99edcdd0b2d9c6c5c7132c2eed46:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.7be87d90886977a93e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6ded99edcdd0b2d9c6c5c7132c2eed46:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.e35ce1bc7a88db195b", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:6ded99edcdd0b2d9c6c5c7132c2eed46:employer:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.employer_name.4c850b8d06203f649a", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "signal_type": "query_match", "display_text": "Employer: semantic match", "tooltip": "Employer provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:b3af8a2a484af46cece5b5bf", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.22d4b7b6dc5ef13b0e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.4a0cc67d33e95a47e2", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "6ded99edcdd0b2d9c6c5c7132c2eed46", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "2b788e9849e6f31f48333cc041d7c47f", "title": "Quantum Error Correction Theorist", "employer_name": "Quantum Circuits", "employer_slug": "quantum-circuits", "location_text": "New Haven, CT", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2025-08-08T20:18:18.340Z", "apply_url": "https://jobs.lever.co/quantumcircuits/9c13253f-f57f-42f7-85f5-3889fa725c72", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Quantum Error Correction Theorist New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "other", "employer_industry": null, "employer_size": null, "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.0dd9261aea62bf4d2e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Error Correction Theorist New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:2b788e9849e6f31f48333cc041d7c47f:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.e3d7ce862ab513c267", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Error Correction Theorist New Haven, CT Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why join QCI? You'll be working with the latest technology at our state-of-the-art facilities, where your curiosity, ingenuity, and initiative will thrive - you'll learn a ton by working with us and have a lot of fun doing it. We have a deep, fast-paced team that's passionate about building the best quantum computers in the world. Join us if you want to be at the forefront of the quantum revolution. Quantum Circuits, Inc. (QCI) is developing a full-stack quantum computing platform using superconducting devices and a modular, robust, and scalable architecture. QCI's mission is to build the first truly useful quantum computers. Our novel approach to building quantum computers is based on technology developed over a decade of research at Yale University's world-class quantum labs. Our machines have built-in error correction, unique software features that enable lightning-fast algorithm execution, and multiple modes of operation to solve more algorithms than ever, all in one quantum computer. So, why", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:2b788e9849e6f31f48333cc041d7c47f:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.72af93d1e57df4cb1b", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:2b788e9849e6f31f48333cc041d7c47f:employer:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.e1ad24cdce08b57e93", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:2b788e9849e6f31f48333cc041d7c47f:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.c77507d6334c5f3bf0", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Quantum Error Correction Theorist", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:2b788e9849e6f31f48333cc041d7c47f:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.bed86f634e38fc809a", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Quantum Error Correction Theorist", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:ddf30fdf76a65aa112c49559", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.13076d6cfdf53c7a7d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.c4408c41eea1aeb62f", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "2b788e9849e6f31f48333cc041d7c47f", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Quantum Error Correction Theorist", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "bf79ebcd41162db626a039085d7ec4da", "title": "Senior Quantum Applications Engineer - QEC", "employer_name": "Quantum Circuits", "employer_slug": "quantum-circuits", "location_text": "New Haven, CT", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2024-12-16T14:43:57.903Z", "apply_url": "https://jobs.lever.co/quantumcircuits/528a88bd-d98e-459a-bfdb-8c6b70c868dd", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Senior Quantum Applications Engineer - QEC New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a talented Senior Quantum Applications Engineer with expertise in Quantum Error Correction (QEC) to join our team to develop our QEC stack, including software and simulation. The selected candidate will not only play a critical role in developing our stack but will also evaluate use cases for partially error corrected or early fault-tolerant systems. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a talented Senior Quantum Applications Engineer with expertise in Quantum Error Correction (QEC) to join our team to develop our QEC stack, including software and simulation. The selected candidate will not only play a critical role in developing our stack but will also evaluate use cases for partially error corrected or early fault-tolerant systems. Responsibilities: - Implement and test QEC codes within our software stack based on evolving requirements. - Iterate upon code", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 5, "years_experience_max": 9, "role_function": "data", "employer_industry": null, "employer_size": null, "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.90cea54aa149b412f9", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Applications Engineer - QEC New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a talented Senior Quantum Applications Engineer with expertise in Quantum Error Correction (QEC) to join our team to develop our QEC stack, including software and simulation. The selected candidate will not only play a critical role in developing our stack but will also evaluate use cases for partially error corrected or early fault-tolerant systems. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a talented Senior Quantum Applications Engineer with expertise in Quantum Error Correction (QEC) to join our team to develop our QEC stack, including software and simulation. The selected candidate will not only play a critical role in developing our stack but will also evaluate use cases for partially error corrected or early fault-tolerant systems. Responsibilities: - Implement and test QEC codes within our software stack based on evolving requirements. - Iterate upon code", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:bf79ebcd41162db626a039085d7ec4da:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.b11894b19a998888a2", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Applications Engineer - QEC New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a talented Senior Quantum Applications Engineer with expertise in Quantum Error Correction (QEC) to join our team to develop our QEC stack, including software and simulation. The selected candidate will not only play a critical role in developing our stack but will also evaluate use cases for partially error corrected or early fault-tolerant systems. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a talented Senior Quantum Applications Engineer with expertise in Quantum Error Correction (QEC) to join our team to develop our QEC stack, including software and simulation. The selected candidate will not only play a critical role in developing our stack but will also evaluate use cases for partially error corrected or early fault-tolerant systems. Responsibilities: - Implement and test QEC codes within our software stack based on evolving requirements. - Iterate upon code", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:bf79ebcd41162db626a039085d7ec4da:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.42d90820dae0447fd9", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:bf79ebcd41162db626a039085d7ec4da:employer:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.b5b13c5a99e762005b", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:bf79ebcd41162db626a039085d7ec4da:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.125b45403db80512bb", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Senior Quantum Applications Engineer - QEC", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:bf79ebcd41162db626a039085d7ec4da:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.61ba6122ea00fd71c6", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Senior Quantum Applications Engineer - QEC", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:d6bbd6478a9ab90429c8bf84", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.c6cd888dc791808605", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.5692d15b2761e511fb", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bf79ebcd41162db626a039085d7ec4da", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Senior Quantum Applications Engineer - QEC", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "24d12b51469410235910132a2dd3e2dc", "title": "Senior Cloud Architect (AWS)", "employer_name": "Quantum Circuits", "employer_slug": "quantum-circuits", "location_text": "New Haven, CT", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": true, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2025-05-30T18:23:07.903Z", "apply_url": "https://jobs.lever.co/quantumcircuits/fdb7cdfc-bcf1-4ba6-8915-80fe0e7ea059", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Senior Cloud Architect (AWS) New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses dual-rail superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Cloud Architect to join our dynamic team. The ideal candidate has a strong background in leading the design, implementation, and continuous improvement of our cloud infrastructure. This is a senior, hands-on role ideal for a systems thinker who can architect complex distributed systems, guide modernization efforts, and contribute directly to high-priority cloud initiatives. Our cloud-based applications frequently interface with specialized hardware platforms, including embedded systems and scientific instrumentation, and support a range of data-intensive workloads. While direct experience with these systems isn't required, a strong conceptual understanding of Linux internals, embedded environments, or FPGA-based architectures will enable you to architect more effective, integrated solutions. You'll be expected to work independently, lead projects from concept through delivery, and collaborate cross-functionally to align technical solutions with organizational objectives. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses dual-rail superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 7, "years_experience_max": 11, "role_function": "engineering", "employer_industry": null, "employer_size": null, "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "none", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.79de7b32ee4fa0d574", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "24d12b51469410235910132a2dd3e2dc", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Cloud Architect (AWS) New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses dual-rail superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Cloud Architect to join our dynamic team. The ideal candidate has a strong background in leading the design, implementation, and continuous improvement of our cloud infrastructure. This is a senior, hands-on role ideal for a systems thinker who can architect complex distributed systems, guide modernization efforts, and contribute directly to high-priority cloud initiatives. Our cloud-based applications frequently interface with specialized hardware platforms, including embedded systems and scientific instrumentation, and support a range of data-intensive workloads. While direct experience with these systems isn't required, a strong conceptual understanding of Linux internals, embedded environments, or FPGA-based architectures will enable you to architect more effective, integrated solutions. You'll be expected to work independently, lead projects from concept through delivery, and collaborate cross-functionally to align technical solutions with organizational objectives. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses dual-rail superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:24d12b51469410235910132a2dd3e2dc:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.bd6050c7e481e6aee9", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "24d12b51469410235910132a2dd3e2dc", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Cloud Architect (AWS) New Haven, CT At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses dual-rail superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned quantum labs. We are seeking a highly skilled and self-motivated Senior Cloud Architect to join our dynamic team. The ideal candidate has a strong background in leading the design, implementation, and continuous improvement of our cloud infrastructure. This is a senior, hands-on role ideal for a systems thinker who can architect complex distributed systems, guide modernization efforts, and contribute directly to high-priority cloud initiatives. Our cloud-based applications frequently interface with specialized hardware platforms, including embedded systems and scientific instrumentation, and support a range of data-intensive workloads. While direct experience with these systems isn't required, a strong conceptual understanding of Linux internals, embedded environments, or FPGA-based architectures will enable you to architect more effective, integrated solutions. You'll be expected to work independently, lead projects from concept through delivery, and collaborate cross-functionally to align technical solutions with organizational objectives. At Quantum Circuits Inc., we are building the world's first truly algorithmic quantum computers to achieve transformational computing capabilities. Our full-stack quantum computing platform uses dual-rail superconducting devices along with a modular, robust, and scalable architecture. Our unique approach is based on a decade of technology research and breakthroughs at Yale University's world-renowned", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:24d12b51469410235910132a2dd3e2dc:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.34d3f372f8496f88ad", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "24d12b51469410235910132a2dd3e2dc", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:24d12b51469410235910132a2dd3e2dc:employer:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.c541b7553360129aed", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "24d12b51469410235910132a2dd3e2dc", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:24d12b51469410235910132a2dd3e2dc:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.employer_name.349c2501f4e740bb4c", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "24d12b51469410235910132a2dd3e2dc", "signal_type": "query_match", "display_text": "Employer: semantic match", "tooltip": "Employer provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:844caad960c345ae47a3fc5e", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.2495c21d1700cb253d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "24d12b51469410235910132a2dd3e2dc", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.5baa1d2f0b88bfa752", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "24d12b51469410235910132a2dd3e2dc", "signal_type": "query_match", "display_text": "Employer: \"circuits\"", "tooltip": "Employer contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Quantum Circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "84c801b5e7ca68ead8ed11d72ceed9cc", "title": "Senior Quantum Engineer, Quantum Integrated Circuit Design", "employer_name": "Rigetti Computing INC", "employer_slug": "rigetti-computing", "location_text": "Berkeley, CA or Fremont, CA", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "UNSPECIFIED", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-03-06T08:15:56.125Z", "apply_url": "https://jobs.lever.co/rigetti/fc3de2cf-e797-40f4-9f99-89d5bd967a5d", "apply_url_verified": true, "ats": "lever", "url_last_checked_alive": "2026-06-13T01:22:25.673Z", "removed_at": null, "description_excerpt": "Senior Quantum Engineer, Quantum Integrated Circuit Design Berkeley, CA or Fremont, CA As a Quantum Engineer in the quantum integrated circuit design team, you will drive systematic improvements to Rigetti Computing's quantum processors through modeling and design. You will be actively involved in realizing the chips that are at the core of our technology stack. You will contribute to our full-wave electromagnetic simulation workflows and use it to model the performance of superconducting circuits. Drawing from your expertise in circuit Quantum Electrodynamics and full-wave radio-frequency engineering, from fundamental theory through practical application, you will identify and implement improvements to the integrated circuit layout to mitigate loss and crosstalk channels. You will lay out and design microwave multi-qubit circuits for fabrication and develop next-generation quantum processors. Key Responsibilities D e s i g n , l a y o u t , a n d s i m u l a t e s u p e r c o n d u c t i n g m i c r o w a v e i n t e g r a t e d c i r c u i t s f o r q u a n t u m p r o c e s s o r s , w i t h a f o c u s o n o p t i m a l o n - c h i p s i g n a l d e l", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 3, "years_experience_max": 9, "role_function": "engineering", "employer_industry": "Technology", "employer_size": "5000+", "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "none", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.0f57a5294b02c121f9", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "84c801b5e7ca68ead8ed11d72ceed9cc", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Engineer, Quantum Integrated Circuit Design Berkeley, CA or Fremont, CA As a Quantum Engineer in the quantum integrated circuit design team, you will drive systematic improvements to Rigetti Computing's quantum processors through modeling and design. You will be actively involved in realizing the chips that are at the core of our technology stack. You will contribute to our full-wave electromagnetic simulation workflows and use it to model the performance of superconducting circuits. Drawing from your expertise in circuit Quantum Electrodynamics and full-wave radio-frequency engineering, from fundamental theory through practical application, you will identify and implement improvements to the integrated circuit layout to mitigate loss and crosstalk channels. You will lay out and design microwave multi-qubit circuits for fabrication and develop next-generation quantum processors. Key Responsibilities D e s i g n , l a y o u t , a n d s i m u l a t e s u p e r c o n d u c t i n g m i c r o w a v e i n t e g r a t e d c i r c u i t s f o r q u a n t u m p r o c e s s o r s , w i t h a f o c u s o n o p t i m a l o n - c h i p s i g n a l d e l", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:84c801b5e7ca68ead8ed11d72ceed9cc:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.7103e70646224441b5", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "84c801b5e7ca68ead8ed11d72ceed9cc", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Engineer, Quantum Integrated Circuit Design Berkeley, CA or Fremont, CA As a Quantum Engineer in the quantum integrated circuit design team, you will drive systematic improvements to Rigetti Computing's quantum processors through modeling and design. You will be actively involved in realizing the chips that are at the core of our technology stack. You will contribute to our full-wave electromagnetic simulation workflows and use it to model the performance of superconducting circuits. Drawing from your expertise in circuit Quantum Electrodynamics and full-wave radio-frequency engineering, from fundamental theory through practical application, you will identify and implement improvements to the integrated circuit layout to mitigate loss and crosstalk channels. You will lay out and design microwave multi-qubit circuits for fabrication and develop next-generation quantum processors. Key Responsibilities D e s i g n , l a y o u t , a n d s i m u l a t e s u p e r c o n d u c t i n g m i c r o w a v e i n t e g r a t e d c i r c u i t s f o r q u a n t u m p r o c e s s o r s , w i t h a f o c u s o n o p t i m a l o n - c h i p s i g n a l d e l", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:84c801b5e7ca68ead8ed11d72ceed9cc:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.3bdf086ecd1fea8ff3", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "84c801b5e7ca68ead8ed11d72ceed9cc", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Senior Quantum Engineer, Quantum Integrated Circuit Design", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:84c801b5e7ca68ead8ed11d72ceed9cc:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.b9a1165eacc9549335", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "84c801b5e7ca68ead8ed11d72ceed9cc", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Senior Quantum Engineer, Quantum Integrated Circuit Design", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:a38c86e4f877864c09b5ad08", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.092b7c12a5e4e960c6", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "84c801b5e7ca68ead8ed11d72ceed9cc", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "description_excerpt", "source_value": "Senior Quantum Engineer, Quantum Integrated Circuit Design Berkeley, CA or Fremont, CA As a Quantum Engineer in the quantum integrated circuit design team, you will drive systematic improvements to Rigetti Computing's quantum processors through modeling and design. You will be actively involved in realizing the chips that are at the core of our technology stack. You will contribute to our full-wave electromagnetic simulation workflows and use it to model the performance of superconducting circuits. Drawing from your expertise in circuit Quantum Electrodynamics and full-wave radio-frequency engineering, from fundamental theory through practical application, you will identify and implement improvements to the integrated circuit layout to mitigate loss and crosstalk channels. You will lay out and design microwave multi-qubit circuits for fabrication and develop next-generation quantum processors. Key Responsibilities D e s i g n , l a y o u t , a n d s i m u l a t e s u p e r c o n d u c t i n g m i c r o w a v e i n t e g r a t e d c i r c u i t s f o r q u a n t u m p r o c e s s o r s , w i t h a f o c u s o n o p t i m a l o n - c h i p s i g n a l d e l", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.de9fc60b5429c89d63", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "84c801b5e7ca68ead8ed11d72ceed9cc", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Senior Quantum Engineer, Quantum Integrated Circuit Design", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.trust.apply.faf6f0150d1bd97b94", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "84c801b5e7ca68ead8ed11d72ceed9cc", "signal_type": "trust_signal", "display_text": "Live-verified apply link", "tooltip": "The apply link passed the latest liveness check.", "source_binding": "row_trust_evidence", "source_field": "apply_url_verified", "source_value": true, "matched_input": true, "derivation_source": "verified_source_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "trust_source_exists", "counts_for_non_trivial_query": false, "truth_verified": true, "exact": true, "priority": 10, "mobile_priority": 11, "ui": { "icon": "ExternalLink", "tone": "verified", "href": null }, "evidence_source": { "source_url": "https://jobs.lever.co/rigetti/fc3de2cf-e797-40f4-9f99-89d5bd967a5d", "source_label": "Apply link", "source_date": "2026-06-13T01:22:25.673Z" } } ] }, { "id": "c6e33f615b15edcf77b82f7525b70f70", "title": "Senior Quantum Engineer - Cryo-CMOS Analog Circuit Design", "employer_name": "Microsoft", "employer_slug": "microsoft", "location_text": "Redmond, WA, US", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": "yes", "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": "https://www.askebsa.dol.gov/FOIA%20Files/2024/Latest/F_SCH_H_2024_Latest.zip", "k401_match_source_fields": [ "EMPLR_CONTRIB_INCOME_AMT" ], "k401_contribution_source_url": "https://www.askebsa.dol.gov/FOIA%20Files/2024/Latest/F_SCH_H_2024_Latest.zip", "k401_contribution_source_fields": [ "EMPLR_CONTRIB_INCOME_AMT" ], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-05-18T17:47:05.000Z", "apply_url": "https://apply.careers.microsoft.com/careers/job/1970393556864491", "apply_url_verified": false, "ats": "microsoft_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Senior Quantum Engineer - Cryo-CMOS Analog Circuit Design Redmond, WA, US", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": true, "benefit_last_verified": "2026-06-13T01:18:42.546Z", "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 5, "years_experience_max": 9, "role_function": "data", "employer_industry": "Industrial", "employer_size": "5000+", "quality_score": 35, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "none", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.cedc45c4d9e3b347fd", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "c6e33f615b15edcf77b82f7525b70f70", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Engineer - Cryo-CMOS Analog Circuit Design Redmond, WA, US", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:c6e33f615b15edcf77b82f7525b70f70:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.cbbf5d706dd6173d8a", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "c6e33f615b15edcf77b82f7525b70f70", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Senior Quantum Engineer - Cryo-CMOS Analog Circuit Design", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:c6e33f615b15edcf77b82f7525b70f70:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.c307dd1ee8898d8cb3", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "c6e33f615b15edcf77b82f7525b70f70", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Senior Quantum Engineer - Cryo-CMOS Analog Circuit Design", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:d2d104ac9e91396c5e9afdd8", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.5bd986ab7f0b6fe8aa", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "c6e33f615b15edcf77b82f7525b70f70", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Senior Quantum Engineer - Cryo-CMOS Analog Circuit Design", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "37c821891912286423f819c40dbf793b", "title": "Doctoral Thesis - Automated Layout Synthesis for Scalable Quantum Computing Cryogenic Circuit Design Automation (f/m/div)", "employer_name": "Infineon Technologies", "employer_slug": "infineon-technologies", "location_text": "Munich (Germany)", "country": "DE", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 3, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "UNSPECIFIED", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-06-12T10:25:24.000Z", "apply_url": "https://infineon.eightfold.ai/careers/job/563808970498857", "apply_url_verified": false, "ats": "eightfold", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Doctoral Thesis - Automated Layout Synthesis for Scalable Quantum Computing Cryogenic Circuit Design Automation (f/m/div) Munich (Germany)", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 40, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "engineering", "employer_industry": null, "employer_size": null, "quality_score": 35, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.0029310f2aa9ee3a6e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "37c821891912286423f819c40dbf793b", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Doctoral Thesis - Automated Layout Synthesis for Scalable Quantum Computing Cryogenic Circuit Design Automation (f/m/div) Munich (Germany)", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:37c821891912286423f819c40dbf793b:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.19f2e9af4b2103b6b9", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "37c821891912286423f819c40dbf793b", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Doctoral Thesis - Automated Layout Synthesis for Scalable Quantum Computing Cryogenic Circuit Design Automation (f/m/div)", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:37c821891912286423f819c40dbf793b:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.e84eac5446d4a977fc", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "37c821891912286423f819c40dbf793b", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Doctoral Thesis - Automated Layout Synthesis for Scalable Quantum Computing Cryogenic Circuit Design Automation (f/m/div)", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:04f2f157a7a376a7c39aac84", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.88e54aa17777286046", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "37c821891912286423f819c40dbf793b", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Doctoral Thesis - Automated Layout Synthesis for Scalable Quantum Computing Cryogenic Circuit Design Automation (f/m/div)", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "0853a3a6a5e034b558355b255bc7d53b", "title": "Sr. Quantum Applied Scientist, Device and Architecture Theory, AWS Center for Quantum Computing", "employer_name": "Amazon", "employer_slug": "amazon", "location_text": "Pasadena, California, USA", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 167100, "salary_max": 226100, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 167100, "base_salary_max": 226100, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "rsu" ], "k401_match": "yes", "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": true, "childcare_subsidy": true, "fertility_family_building_benefits": true, "adoption_assistance_offered": true, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-04-30T00:00:00.000Z", "apply_url": "https://www.amazon.jobs/en/jobs/10408017/sr-quantum-applied-scientist-device-and-architecture-theory-aws-center-for-quantum-computing", "apply_url_verified": false, "ats": "amazon_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Sr. Quantum Applied Scientist, Device and Architecture Theory, AWS Center for Quantum Computing Pasadena, California, USA The Amazon Center for Quantum Computing (CQC) is a multi-disciplinary team of scientists, engineers, and technicians on a mission to develop a fault-tolerant quantum computer. As a Senior Quantum Applied Scientist on our Device and Architecture Theory team, you will be a technical authority and driving force in the theory and modeling of our superconducting qubit processors. You will lead detailed modeling efforts to explain experimental results, inform new processor designs, and optimize device performance, working closely with our measurement, design, and calibration teams. You will also help chart the strategic direction for next-generation processors, evaluating novel qubits, gate schemes, and scalable architectures for error correction and fault-tolerant logic. This is a role with significant room for innovation: you will play a key role in architecting our large-scale error-corrected quantum processors. We are looking for a seasoned researcher with deep expertise in superconducting circuit physics and a proven track record of bridging theory and experiment. Success in this role requires both technical depth and a genuine passion for applied, collaborative work. The ideal candidate will excel at communication across disciplines - translating detailed analyses into actionable guidance for engineering teams - and will bring the experience and judgment to identify innovations that will have the greatest impact. Key job responsibilities - Develop theoretical and numerical models of superconducting qubit processors, working across theory, measurement, design, and calibration teams to validate predictions and translate modeling", "parental_leave_weeks": 6, "non_birth_parent_leave_weeks": 6, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": "https://www.aboutamazon.com/news/workplace/what-20-weeks-of-fully-paid-leave-does-for-Amazon-families", "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 56, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 5, "years_experience_max": 9, "role_function": "engineering", "employer_industry": "Industrial", "employer_size": "5000+", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": true, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.53ddc4041b3aa58ad4", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "0853a3a6a5e034b558355b255bc7d53b", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Sr. Quantum Applied Scientist, Device and Architecture Theory, AWS Center for Quantum Computing Pasadena, California, USA The Amazon Center for Quantum Computing (CQC) is a multi-disciplinary team of scientists, engineers, and technicians on a mission to develop a fault-tolerant quantum computer. As a Senior Quantum Applied Scientist on our Device and Architecture Theory team, you will be a technical authority and driving force in the theory and modeling of our superconducting qubit processors. You will lead detailed modeling efforts to explain experimental results, inform new processor designs, and optimize device performance, working closely with our measurement, design, and calibration teams. You will also help chart the strategic direction for next-generation processors, evaluating novel qubits, gate schemes, and scalable architectures for error correction and fault-tolerant logic. This is a role with significant room for innovation: you will play a key role in architecting our large-scale error-corrected quantum processors. We are looking for a seasoned researcher with deep expertise in superconducting circuit physics and a proven track record of bridging theory and experiment. Success in this role requires both technical depth and a genuine passion for applied, collaborative work. The ideal candidate will excel at communication across disciplines - translating detailed analyses into actionable guidance for engineering teams - and will bring the experience and judgment to identify innovations that will have the greatest impact. Key job responsibilities - Develop theoretical and numerical models of superconducting qubit processors, working across theory, measurement, design, and calibration teams to validate predictions and translate modeling", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:0853a3a6a5e034b558355b255bc7d53b:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.0c49991cd6944e763f", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "0853a3a6a5e034b558355b255bc7d53b", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Sr. Quantum Applied Scientist, Device and Architecture Theory, AWS Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:0853a3a6a5e034b558355b255bc7d53b:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.971a137ca3669b01f8", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "0853a3a6a5e034b558355b255bc7d53b", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Sr. Quantum Applied Scientist, Device and Architecture Theory, AWS Center for Quantum Computing", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:74cf8d9053acdfc2934030aa", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.fa7b27a48a9a920047", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "0853a3a6a5e034b558355b255bc7d53b", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Sr. Quantum Applied Scientist, Device and Architecture Theory, AWS Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "bb21868094df1366dd0a539457fa403f", "title": "Quantum Applied Scientist, Center for Quantum Computing, Device Team", "employer_name": "Amazon", "employer_slug": "amazon", "location_text": "Pasadena, California, USA", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 142800, "salary_max": 193200, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 142800, "base_salary_max": 193200, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "rsu" ], "k401_match": "yes", "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": true, "childcare_subsidy": true, "fertility_family_building_benefits": true, "adoption_assistance_offered": true, "surrogacy_assistance_offered": true, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-05-04T00:00:00.000Z", "apply_url": "https://www.amazon.jobs/en/jobs/10409897/quantum-applied-scientist-center-for-quantum-computing-device-team", "apply_url_verified": false, "ats": "amazon_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Quantum Applied Scientist, Center for Quantum Computing, Device Team Pasadena, California, USA The Amazon Web Services (AWS) Center for Quantum Computing in Pasadena, CA, is looking to hire an Applied Scientist on the Device Team, focused on integration R&D for superconducting quantum processors. You will join a multi-disciplinary team of theoretical and experimental physicists, materials scientists, and hardware and software engineers working at the forefront of quantum computing. You should have deep expertise in the design, fabrication, and characterization of superconducting quantum devices, with a strong understanding of how materials, process integration, and device architecture impact qubit coherence and performance. Candidates with a track record of original scientific contributions in superconducting qubit coherence, thin film materials, or Josephson junction engineering will be preferred. We are looking for candidates with strong scientific and engineering principles, resourcefulness and a bias for action, superior problem solving, and excellent communication skills. Working effectively within a team environment is essential. As an Applied Scientist at CQC, you will be expected to drive integration R&D from concept through hardware demonstration and stay abreast of advances in superconducting quantum hardware. Key job responsibilities You will work at the unit cell level to integrate and evaluate new fabrication process modules and device design changes for superconducting quantum processors. This includes designing and executing experiments to assess performance impacts, investigating unexpected results through rigorous analysis and follow-on experiments, and leveraging electromagnetic and circuit-level simulations to interpret findings and connect observations to underlying physical mechanisms. You will coordinate with production", "parental_leave_weeks": 6, "non_birth_parent_leave_weeks": 6, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": "https://www.aboutamazon.com/news/workplace/what-20-weeks-of-fully-paid-leave-does-for-Amazon-families", "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 56, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 2, "years_experience_max": 7, "role_function": "data", "employer_industry": "Industrial", "employer_size": "5000+", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "masters", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.e28fddf33bcf7d7d6c", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bb21868094df1366dd0a539457fa403f", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Applied Scientist, Center for Quantum Computing, Device Team Pasadena, California, USA The Amazon Web Services (AWS) Center for Quantum Computing in Pasadena, CA, is looking to hire an Applied Scientist on the Device Team, focused on integration R&D for superconducting quantum processors. You will join a multi-disciplinary team of theoretical and experimental physicists, materials scientists, and hardware and software engineers working at the forefront of quantum computing. You should have deep expertise in the design, fabrication, and characterization of superconducting quantum devices, with a strong understanding of how materials, process integration, and device architecture impact qubit coherence and performance. Candidates with a track record of original scientific contributions in superconducting qubit coherence, thin film materials, or Josephson junction engineering will be preferred. We are looking for candidates with strong scientific and engineering principles, resourcefulness and a bias for action, superior problem solving, and excellent communication skills. Working effectively within a team environment is essential. As an Applied Scientist at CQC, you will be expected to drive integration R&D from concept through hardware demonstration and stay abreast of advances in superconducting quantum hardware. Key job responsibilities You will work at the unit cell level to integrate and evaluate new fabrication process modules and device design changes for superconducting quantum processors. This includes designing and executing experiments to assess performance impacts, investigating unexpected results through rigorous analysis and follow-on experiments, and leveraging electromagnetic and circuit-level simulations to interpret findings and connect observations to underlying physical mechanisms. You will coordinate with production", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:bb21868094df1366dd0a539457fa403f:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.57d39325fc7a827975", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bb21868094df1366dd0a539457fa403f", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Quantum Applied Scientist, Center for Quantum Computing, Device Team", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:bb21868094df1366dd0a539457fa403f:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.fc84e843738a7b891c", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bb21868094df1366dd0a539457fa403f", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Quantum Applied Scientist, Center for Quantum Computing, Device Team", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:f5a928022f54e0817c0696da", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.6debf4ee1d9e1f93e0", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "bb21868094df1366dd0a539457fa403f", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Quantum Applied Scientist, Center for Quantum Computing, Device Team", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "f5469533b99e95710d2ce88a3dd6a7d9", "title": "Photonic Circuits Designer", "employer_name": "PsiQuantum", "employer_slug": "psiquantum", "location_text": "Palo Alto, California, United States", "country": "US", "employment_type": "full_time", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 130000, "salary_max": 145000, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 130000, "base_salary_max": 145000, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "options" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [ "cbinsights_unicorn", "foundersfund" ], "posted_at": "2026-01-28T00:29:52.000Z", "apply_url": "https://www.psiquantum.com/apply?gh_jid=7608017003", "apply_url_verified": false, "ats": "greenhouse", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Photonic Circuits Designer Palo Alto, California, United States PsiQuantum's mission is to build the first useful quantum computers-machines capable of delivering the breakthroughs the field has long promised. Since our founding in 2016, our singular focus has been to build and deploy million-qubit, fault-tolerant quantum systems. Quantum computers harness the laws of quantum mechanics to solve problems that even the most advanced supercomputers or AI systems will never reach. Their impact will span energy, pharmaceuticals, finance, agriculture, transportation, materials, and other foundational industries. Our architecture and approach is based on silicon photonics. By leveraging the advanced semiconductor manufacturing industry-including partners like GlobalFoundries-we use the same high-volume processes that already produce billions of chips for telecom and consumer electronics. Photonics offers natural advantages for scale: photons don't feel heat, are immune to electromagnetic interference, and integrate with existing cryogenic cooling and standard fiber-optic infrastructure. In 2024, PsiQuantum announced government-funded projects to support the build-out of our first utility-scale quantum computers in Brisbane, Australia, and Chicago, Illinois. These initiatives reflect a growing recognition that quantum computing will be strategically and economically defining-and that now is the time to scale. PsiQuantum also develops the algorithms and software needed to make these systems commercially valuable. Our application, software, and industry teams work directly with leading Fortune 500 companies-including Lockheed Martin, Mercedes-Benz, Boehringer Ingelheim, and Mitsubishi Chemical-to prepare quantum solutions for real-world impact. Quantum computing is not an extension of classical computing. It represents a fundamental shift-and a path to mastering challenges that cannot be", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 47, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "engineering", "employer_industry": null, "employer_size": "51-200", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.2da07913ca062b1990", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "f5469533b99e95710d2ce88a3dd6a7d9", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Photonic Circuits Designer Palo Alto, California, United States PsiQuantum's mission is to build the first useful quantum computers-machines capable of delivering the breakthroughs the field has long promised. Since our founding in 2016, our singular focus has been to build and deploy million-qubit, fault-tolerant quantum systems. Quantum computers harness the laws of quantum mechanics to solve problems that even the most advanced supercomputers or AI systems will never reach. Their impact will span energy, pharmaceuticals, finance, agriculture, transportation, materials, and other foundational industries. Our architecture and approach is based on silicon photonics. By leveraging the advanced semiconductor manufacturing industry-including partners like GlobalFoundries-we use the same high-volume processes that already produce billions of chips for telecom and consumer electronics. Photonics offers natural advantages for scale: photons don't feel heat, are immune to electromagnetic interference, and integrate with existing cryogenic cooling and standard fiber-optic infrastructure. In 2024, PsiQuantum announced government-funded projects to support the build-out of our first utility-scale quantum computers in Brisbane, Australia, and Chicago, Illinois. These initiatives reflect a growing recognition that quantum computing will be strategically and economically defining-and that now is the time to scale. PsiQuantum also develops the algorithms and software needed to make these systems commercially valuable. Our application, software, and industry teams work directly with leading Fortune 500 companies-including Lockheed Martin, Mercedes-Benz, Boehringer Ingelheim, and Mitsubishi Chemical-to prepare quantum solutions for real-world impact. Quantum computing is not an extension of classical computing. It represents a fundamental shift-and a path to mastering challenges that cannot be", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:f5469533b99e95710d2ce88a3dd6a7d9:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.c3bde48049d21ad12d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "f5469533b99e95710d2ce88a3dd6a7d9", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Photonic Circuits Designer Palo Alto, California, United States PsiQuantum's mission is to build the first useful quantum computers-machines capable of delivering the breakthroughs the field has long promised. Since our founding in 2016, our singular focus has been to build and deploy million-qubit, fault-tolerant quantum systems. Quantum computers harness the laws of quantum mechanics to solve problems that even the most advanced supercomputers or AI systems will never reach. Their impact will span energy, pharmaceuticals, finance, agriculture, transportation, materials, and other foundational industries. Our architecture and approach is based on silicon photonics. By leveraging the advanced semiconductor manufacturing industry-including partners like GlobalFoundries-we use the same high-volume processes that already produce billions of chips for telecom and consumer electronics. Photonics offers natural advantages for scale: photons don't feel heat, are immune to electromagnetic interference, and integrate with existing cryogenic cooling and standard fiber-optic infrastructure. In 2024, PsiQuantum announced government-funded projects to support the build-out of our first utility-scale quantum computers in Brisbane, Australia, and Chicago, Illinois. These initiatives reflect a growing recognition that quantum computing will be strategically and economically defining-and that now is the time to scale. PsiQuantum also develops the algorithms and software needed to make these systems commercially valuable. Our application, software, and industry teams work directly with leading Fortune 500 companies-including Lockheed Martin, Mercedes-Benz, Boehringer Ingelheim, and Mitsubishi Chemical-to prepare quantum solutions for real-world impact. Quantum computing is not an extension of classical computing. It represents a fundamental shift-and a path to mastering challenges that cannot be", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:f5469533b99e95710d2ce88a3dd6a7d9:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.f34c9889d74d06d37c", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "f5469533b99e95710d2ce88a3dd6a7d9", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "PsiQuantum", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:f5469533b99e95710d2ce88a3dd6a7d9:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.fdab219ca265d3dfba", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "f5469533b99e95710d2ce88a3dd6a7d9", "signal_type": "query_match", "display_text": "Title: \"circuits\"", "tooltip": "Title matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Photonic Circuits Designer", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:f5469533b99e95710d2ce88a3dd6a7d9:title:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.employer_name.0e378cc6c9cc8ca901", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "f5469533b99e95710d2ce88a3dd6a7d9", "signal_type": "query_match", "display_text": "Employer: semantic match", "tooltip": "Employer provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "employer_name", "source_value": "PsiQuantum", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:cefeab0bec009ff3cf6a0440", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.517eaeb34dcc37761c", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "f5469533b99e95710d2ce88a3dd6a7d9", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "PsiQuantum", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.78889298e850907576", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "f5469533b99e95710d2ce88a3dd6a7d9", "signal_type": "query_match", "display_text": "Title: \"circuits\"", "tooltip": "Title contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Photonic Circuits Designer", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "ae49a854b45cd820c046f64160770d62", "title": "Lead Quantum Device Theorist", "employer_name": "Rigetti Quantum Computing", "employer_slug": "rigetti-quantum-computing", "location_text": "Berkeley, CA or Fremont, CA", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": true, "equity_included_source": null, "equity_type": [ "options" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [ "a16z" ], "posted_at": "2026-03-16T17:56:15.114Z", "apply_url": "https://jobs.lever.co/rigetti/ff81d9dd-c93b-47d9-ac8f-fd04f60f1bd2", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Lead Quantum Device Theorist Berkeley, CA or Fremont, CA As a Lead Quantum Device Theorist, you will play a central role in advancing the performance of our superconducting quantum processors. This position requires deep expertise in circuit QED, quantum device physics, and noise modeling for quantum error correction (QEC). You will work closely with experimental teams to model processor dynamics and lead efforts to improve qubit readout fidelity and quantum gate performance across our R&D platforms. This role demands strong cross-functional collaboration with specialists in qubit readout, gate calibration, control systems, and superconducting circuit design. Together, you will drive innovations that support scalable architectures, quantum advantage, and fault-tolerant error correction. We are seeking a candidate who excels at solving complex device-physics challenges in large-scale superconducting quantum processors. You will develop mitigation strategies grounded in first-principles modeling, including optimal Hamiltonian engineering, noise-spectral analysis, and system-level simulations spanning design, and post-deployment characterization. This role requires deep expertise in circuit QED, tunable coupler architectures, multi-level system dynamics, and decoherence mechanisms, along with the ability to translate theoretical insights into experimentally actionable improvements in gate and readout performance. Strong collaboration across device design, calibration, and control teams is essential. As a Lead Quantum Device Theorist, you will play a central role in advancing the performance of our superconducting quantum processors. This position requires deep expertise in circuit QED, quantum device physics, and noise modeling for quantum error correction (QEC). You will work closely with experimental teams to model processor dynamics and lead efforts to", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 43, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 5, "years_experience_max": 9, "role_function": "engineering", "employer_industry": null, "employer_size": "51-200", "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.fc5926313e9c87aceb", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "ae49a854b45cd820c046f64160770d62", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Lead Quantum Device Theorist Berkeley, CA or Fremont, CA As a Lead Quantum Device Theorist, you will play a central role in advancing the performance of our superconducting quantum processors. This position requires deep expertise in circuit QED, quantum device physics, and noise modeling for quantum error correction (QEC). You will work closely with experimental teams to model processor dynamics and lead efforts to improve qubit readout fidelity and quantum gate performance across our R&D platforms. This role demands strong cross-functional collaboration with specialists in qubit readout, gate calibration, control systems, and superconducting circuit design. Together, you will drive innovations that support scalable architectures, quantum advantage, and fault-tolerant error correction. We are seeking a candidate who excels at solving complex device-physics challenges in large-scale superconducting quantum processors. You will develop mitigation strategies grounded in first-principles modeling, including optimal Hamiltonian engineering, noise-spectral analysis, and system-level simulations spanning design, and post-deployment characterization. This role requires deep expertise in circuit QED, tunable coupler architectures, multi-level system dynamics, and decoherence mechanisms, along with the ability to translate theoretical insights into experimentally actionable improvements in gate and readout performance. Strong collaboration across device design, calibration, and control teams is essential. As a Lead Quantum Device Theorist, you will play a central role in advancing the performance of our superconducting quantum processors. This position requires deep expertise in circuit QED, quantum device physics, and noise modeling for quantum error correction (QEC). You will work closely with experimental teams to model processor dynamics and lead efforts to", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:ae49a854b45cd820c046f64160770d62:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.5596a91da24baffdc9", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "ae49a854b45cd820c046f64160770d62", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Rigetti Quantum Computing", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:ae49a854b45cd820c046f64160770d62:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.b36c154d52b9db6783", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "ae49a854b45cd820c046f64160770d62", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Lead Quantum Device Theorist", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:ae49a854b45cd820c046f64160770d62:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.040a51539ee6b4241b", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "ae49a854b45cd820c046f64160770d62", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Lead Quantum Device Theorist", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:857c92c2406f7f9a5331036a", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.c73848b646f04839a1", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "ae49a854b45cd820c046f64160770d62", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Lead Quantum Device Theorist", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "051153b157797a6c27ef234b5e2be191", "title": "Lead Electrical Engineer, Control Systems", "employer_name": "Rigetti Quantum Computing", "employer_slug": "rigetti-quantum-computing", "location_text": "Berkeley, CA", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": true, "equity_included_source": null, "equity_type": [ "options" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [ "a16z" ], "posted_at": "2025-04-29T20:42:53.679Z", "apply_url": "https://jobs.lever.co/rigetti/b06e5caa-dc81-41b2-b1b0-8f118255c33a", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Lead Electrical Engineer, Control Systems Berkeley, CA As a member of Rigetti's Control Systems team, you will design, develop, test, and deploy hardware that generates microwave pulses that control and read the qubits in our quantum computer. You'll collaborate closely with embedded software engineers, mechanical engineers, and physicists to deliver cutting-edge quantum control solutions. We're looking for someone who will deepen our team's expertise in low-noise mixed-signal board design - including specifying and designing critical circuit components such as low-noise power supply rails, precise clock distribution, and high-speed transceivers. We're seeking an experienced Electrical Engineer with a proven track record of leading projects across diverse teams and driving technical excellence in fast-paced, high-growth environments. The ideal candidate combines deep technical expertise with exceptional communication and leadership skills, effectively translating complex concepts for diverse audiences and influencing key design and delivery decisions. This individual fosters a culture of innovation, accountability, and rigorous engineering design, while mentoring others to achieve their highest potential. As a member of Rigetti's Control Systems team, you will design, develop, test, and deploy hardware that generates microwave pulses that control and read the qubits in our quantum computer. You'll collaborate closely with embedded software engineers, mechanical engineers, and physicists to deliver cutting-edge quantum control solutions. We're looking for someone who will deepen our team's expertise in low-noise mixed-signal board design - including specifying and designing critical circuit components such as low-noise power supply rails, precise clock distribution, and high-speed transceivers. We're seeking an experienced Electrical Engineer with", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 43, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 10, "years_experience_max": 14, "role_function": "engineering", "employer_industry": null, "employer_size": "51-200", "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "masters", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.412e7fb08ac5419ed4", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "051153b157797a6c27ef234b5e2be191", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Lead Electrical Engineer, Control Systems Berkeley, CA As a member of Rigetti's Control Systems team, you will design, develop, test, and deploy hardware that generates microwave pulses that control and read the qubits in our quantum computer. You'll collaborate closely with embedded software engineers, mechanical engineers, and physicists to deliver cutting-edge quantum control solutions. We're looking for someone who will deepen our team's expertise in low-noise mixed-signal board design - including specifying and designing critical circuit components such as low-noise power supply rails, precise clock distribution, and high-speed transceivers. We're seeking an experienced Electrical Engineer with a proven track record of leading projects across diverse teams and driving technical excellence in fast-paced, high-growth environments. The ideal candidate combines deep technical expertise with exceptional communication and leadership skills, effectively translating complex concepts for diverse audiences and influencing key design and delivery decisions. This individual fosters a culture of innovation, accountability, and rigorous engineering design, while mentoring others to achieve their highest potential. As a member of Rigetti's Control Systems team, you will design, develop, test, and deploy hardware that generates microwave pulses that control and read the qubits in our quantum computer. You'll collaborate closely with embedded software engineers, mechanical engineers, and physicists to deliver cutting-edge quantum control solutions. We're looking for someone who will deepen our team's expertise in low-noise mixed-signal board design - including specifying and designing critical circuit components such as low-noise power supply rails, precise clock distribution, and high-speed transceivers. We're seeking an experienced Electrical Engineer with", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:051153b157797a6c27ef234b5e2be191:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.9a740f2f6e13886d97", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "051153b157797a6c27ef234b5e2be191", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Rigetti Quantum Computing", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:051153b157797a6c27ef234b5e2be191:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.employer_name.d019ef113cb7da4888", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "051153b157797a6c27ef234b5e2be191", "signal_type": "query_match", "display_text": "Employer: semantic match", "tooltip": "Employer provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "employer_name", "source_value": "Rigetti Quantum Computing", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:d84ea913f9b389c6e54e9441", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.ac79b91aca31627ceb", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "051153b157797a6c27ef234b5e2be191", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "Rigetti Quantum Computing", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "8bcc7b18b8748127adcc2e52d22f56d6", "title": "Quantum Applied Scientist, Simulation Methods and Tools, AWS Center for Quantum Computing", "employer_name": "Amazon", "employer_slug": "amazon", "location_text": "Toronto, Ontario, CAN", "country": "CA", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 149300, "salary_max": 249300, "salary_min_source": null, "salary_max_source": null, "salary_currency": "CAD", "salary_type": "total_comp", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 149300, "base_salary_max": 249300, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "rsu", "profit_share" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": true, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-06-05T00:00:00.000Z", "apply_url": "https://www.amazon.jobs/en/jobs/10441198/quantum-applied-scientist-simulation-methods-and-tools-aws-center-for-quantum-computing", "apply_url_verified": false, "ats": "amazon_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Quantum Applied Scientist, Simulation Methods and Tools, AWS Center for Quantum Computing Toronto, Ontario, CAN The Amazon Web Services (AWS) Center for Quantum Computing (CQC) in Pasadena, CA, is looking to hire an Applied Scientist focused on development of methods and tools for simulating quantum processor devices. In this role, you will develop and apply numerical methods and software tools that address simulation problems in quantum processor design and characterization. You will be joining a multi-disciplinary team of scientists, engineers, and technicians, all working at the forefront of quantum computing and will have an opportunity to make an enduring impact on the development of fault-tolerant quantum computers. The ideal candidate should have a track record of significant technical contributions to scientific software packages and have deep expertise in developing and applying numerical methods to simulate quantum many-body systems in the context of quantum processor development. Key job responsibilities Simulations are a critical tool at the CQC. As an applied scientist in this role, you will help develop high quality software tools and numerical methods for simulating our devices at the circuit-QED level, allowing us to accurately and efficiently compute static and dynamical properties of our devices, such as frequencies, coupling strengths, and gate error budgets. The tools you build will directly support device development work done by CQC scientists, such as device theorists, designers, and experimentalists, on adjacent teams. You will also collaborate with these scientists to research and investigate simulation-based solutions to problems in quantum processor design and characterization,", "parental_leave_weeks": 6, "non_birth_parent_leave_weeks": 6, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": "https://www.aboutamazon.com/news/workplace/what-20-weeks-of-fully-paid-leave-does-for-Amazon-families", "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 56, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "data", "employer_industry": "Industrial", "employer_size": "5000+", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.3481c9a39ca85c6240", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8bcc7b18b8748127adcc2e52d22f56d6", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Applied Scientist, Simulation Methods and Tools, AWS Center for Quantum Computing Toronto, Ontario, CAN The Amazon Web Services (AWS) Center for Quantum Computing (CQC) in Pasadena, CA, is looking to hire an Applied Scientist focused on development of methods and tools for simulating quantum processor devices. In this role, you will develop and apply numerical methods and software tools that address simulation problems in quantum processor design and characterization. You will be joining a multi-disciplinary team of scientists, engineers, and technicians, all working at the forefront of quantum computing and will have an opportunity to make an enduring impact on the development of fault-tolerant quantum computers. The ideal candidate should have a track record of significant technical contributions to scientific software packages and have deep expertise in developing and applying numerical methods to simulate quantum many-body systems in the context of quantum processor development. Key job responsibilities Simulations are a critical tool at the CQC. As an applied scientist in this role, you will help develop high quality software tools and numerical methods for simulating our devices at the circuit-QED level, allowing us to accurately and efficiently compute static and dynamical properties of our devices, such as frequencies, coupling strengths, and gate error budgets. The tools you build will directly support device development work done by CQC scientists, such as device theorists, designers, and experimentalists, on adjacent teams. You will also collaborate with these scientists to research and investigate simulation-based solutions to problems in quantum processor design and characterization,", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:8bcc7b18b8748127adcc2e52d22f56d6:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.9e5b8234e1aaa9bc19", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8bcc7b18b8748127adcc2e52d22f56d6", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Quantum Applied Scientist, Simulation Methods and Tools, AWS Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:8bcc7b18b8748127adcc2e52d22f56d6:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.c64e4bfe6eb91a8a46", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8bcc7b18b8748127adcc2e52d22f56d6", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Quantum Applied Scientist, Simulation Methods and Tools, AWS Center for Quantum Computing", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:ea7d46cb6e0e293909b79af3", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.864b5ed64323c35060", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8bcc7b18b8748127adcc2e52d22f56d6", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Quantum Applied Scientist, Simulation Methods and Tools, AWS Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "be122b1936109b000f80aae94d7db47e", "title": "Research Scientist, Quantum Error Correction, Quantum AI", "employer_name": "Google", "employer_slug": "google", "location_text": "Goleta, CA, USA; +1 more", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 147000, "salary_max": 211000, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 147000, "base_salary_max": 211000, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": "yes", "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": "https://www.askebsa.dol.gov/FOIA%20Files/2024/Latest/F_SCH_H_2024_Latest.zip", "k401_match_source_fields": [ "EMPLR_CONTRIB_INCOME_AMT" ], "k401_contribution_source_url": "https://www.askebsa.dol.gov/FOIA%20Files/2024/Latest/F_SCH_H_2024_Latest.zip", "k401_contribution_source_fields": [ "EMPLR_CONTRIB_INCOME_AMT" ], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-06-09T15:38:59.000Z", "apply_url": "https://www.google.com/about/careers/applications/signin?jobId=CiUAL2FckeFKgCw_hiCM4RsHv08x6SjfiLbS3hiNrhvy5jGaHBSiEjsACxwdTNwi6A90gYTQaiIp7AyshWmOSHUpN_Fha0GYE33Z3Wf7xaSkkNk8Kildvr-8pYvtrZ3A6tiUKw%3D%3D_V2&loc=US&title=Research+Scientist", "apply_url_verified": false, "ats": "google_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA; +1 more As a Quantum Research Scientist, you will develop quantum error correction (QEC) schemes for fault-tolerant quantum computing, specifically focusing on superconducting qubits and high-connectivity platforms. You will develop and analyze QEC for modular architectures, addressing challenges such as entangling links between chips that are slower or more faulty than on-chip gates. Your role involves developing fault-tolerant circuits for logical gates while navigating hardware tradeoffs on connectivity and engineering higher accuracy decoding algorithms for high-connectivity codes, such as Low-Density Parity-Check (LDPC) codes. Beyond the technical design, you will contribute to the wider research community by sharing and publishing your findings. These contributions will be inspired by internal projects as well as through active collaborations with research programs at partner universities and technical institutes globally. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications. Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $147000 - $211000 (USD) + 15% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Important examples include LDPC codes and yoked encoding schemes. Adapt error correction circuits", "parental_leave_weeks": 18, "non_birth_parent_leave_weeks": 18, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": "https://blog.google/company-news/outreach-and-initiatives/diversity/international-womens-day-2022/", "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 94, "benefit_verified": true, "benefit_last_verified": "2026-05-07", "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 1, "years_experience_max": 7, "role_function": "engineering", "employer_industry": "Technology", "employer_size": "5000+", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.5b539357c309c51d60", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "be122b1936109b000f80aae94d7db47e", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA; +1 more As a Quantum Research Scientist, you will develop quantum error correction (QEC) schemes for fault-tolerant quantum computing, specifically focusing on superconducting qubits and high-connectivity platforms. You will develop and analyze QEC for modular architectures, addressing challenges such as entangling links between chips that are slower or more faulty than on-chip gates. Your role involves developing fault-tolerant circuits for logical gates while navigating hardware tradeoffs on connectivity and engineering higher accuracy decoding algorithms for high-connectivity codes, such as Low-Density Parity-Check (LDPC) codes. Beyond the technical design, you will contribute to the wider research community by sharing and publishing your findings. These contributions will be inspired by internal projects as well as through active collaborations with research programs at partner universities and technical institutes globally. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications. Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $147000 - $211000 (USD) + 15% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Important examples include LDPC codes and yoked encoding schemes. Adapt error correction circuits", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:be122b1936109b000f80aae94d7db47e:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.83f86df3311fb1adaa", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "be122b1936109b000f80aae94d7db47e", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA; +1 more As a Quantum Research Scientist, you will develop quantum error correction (QEC) schemes for fault-tolerant quantum computing, specifically focusing on superconducting qubits and high-connectivity platforms. You will develop and analyze QEC for modular architectures, addressing challenges such as entangling links between chips that are slower or more faulty than on-chip gates. Your role involves developing fault-tolerant circuits for logical gates while navigating hardware tradeoffs on connectivity and engineering higher accuracy decoding algorithms for high-connectivity codes, such as Low-Density Parity-Check (LDPC) codes. Beyond the technical design, you will contribute to the wider research community by sharing and publishing your findings. These contributions will be inspired by internal projects as well as through active collaborations with research programs at partner universities and technical institutes globally. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications. Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $147000 - $211000 (USD) + 15% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Important examples include LDPC codes and yoked encoding schemes. Adapt error correction circuits", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:be122b1936109b000f80aae94d7db47e:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.114ced50f1f7c96ab4", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "be122b1936109b000f80aae94d7db47e", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Research Scientist, Quantum Error Correction, Quantum AI", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:be122b1936109b000f80aae94d7db47e:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.b44ce0e298d9f53672", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "be122b1936109b000f80aae94d7db47e", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Research Scientist, Quantum Error Correction, Quantum AI", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:d662aa9e9594d757f9227674", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.74dc35d0f8268deb49", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "be122b1936109b000f80aae94d7db47e", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "description_excerpt", "source_value": "Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA; +1 more As a Quantum Research Scientist, you will develop quantum error correction (QEC) schemes for fault-tolerant quantum computing, specifically focusing on superconducting qubits and high-connectivity platforms. You will develop and analyze QEC for modular architectures, addressing challenges such as entangling links between chips that are slower or more faulty than on-chip gates. Your role involves developing fault-tolerant circuits for logical gates while navigating hardware tradeoffs on connectivity and engineering higher accuracy decoding algorithms for high-connectivity codes, such as Low-Density Parity-Check (LDPC) codes. Beyond the technical design, you will contribute to the wider research community by sharing and publishing your findings. These contributions will be inspired by internal projects as well as through active collaborations with research programs at partner universities and technical institutes globally. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications. Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $147000 - $211000 (USD) + 15% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Important examples include LDPC codes and yoked encoding schemes. Adapt error correction circuits", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.dcba15929e216a05ca", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "be122b1936109b000f80aae94d7db47e", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Research Scientist, Quantum Error Correction, Quantum AI", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "5e6884da302cd3c20d47566c378dc7ea", "title": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing", "employer_name": "Amazon", "employer_slug": "amazon", "location_text": "Pasadena, California, USA", "country": "US", "employment_type": "internship", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 142800, "salary_max": 193200, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 142800, "base_salary_max": 193200, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "rsu" ], "k401_match": "yes", "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": true, "childcare_subsidy": true, "fertility_family_building_benefits": true, "adoption_assistance_offered": true, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-05-13T00:00:00.000Z", "apply_url": "https://www.amazon.jobs/en/jobs/10419240/2026-fall-quantum-applied-science-internship-center-for-quantum-computing", "apply_url_verified": false, "ats": "amazon_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing Pasadena, California, USA The Amazon Web Services (AWS) Center for Quantum Computing (CQC) is a multi-disciplinary team of theoretical and experimental physicists, materials scientists, and hardware and software engineers on a mission to develop a fault-tolerant quantum computer. Throughout your internship journey, you'll have access to unparalleled resources, including state-of-the-art computing infrastructure, cutting-edge research papers, and mentorship from industry luminaries. This immersive experience will not only sharpen your technical skills but also cultivate your ability to think critically, communicate effectively, and thrive in a fast-paced, innovative environment where bold ideas are celebrated. Join us at the forefront of applied science, where your contributions will shape the future of Quantum Computing and propel humanity forward. Seize this extraordinary opportunity to learn, grow, and leave an indelible mark on the world of technology. Amazon has positions available for Quantum Research Science and Applied Science Internships in Santa Clara, CA and Pasadena, CA. We are particularly interested in candidates with expertise in any of the following areas: superconducting qubits, cavity/circuit QED, quantum optics, open quantum systems, superconductivity, electromagnetic simulations of superconducting circuits, microwave engineering, benchmarking, quantum error correction, fabrication, etc. Key job responsibilities In this role, you will work alongside global experts to develop and implement novel, scalable solutions that advance the state-of-the-art in the areas of quantum computing. You will tackle challenging, groundbreaking research problems, work with leading edge technology, focus on highly targeted customer use-cases, and launch products that solve problems", "parental_leave_weeks": 6, "non_birth_parent_leave_weeks": 6, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": "https://www.aboutamazon.com/news/workplace/what-20-weeks-of-fully-paid-leave-does-for-Amazon-families", "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 56, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "entry", "years_experience_min": 0, "years_experience_max": 4, "role_function": "data", "employer_industry": "Industrial", "employer_size": "5000+", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.6bd0c7dca32ca77de4", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "5e6884da302cd3c20d47566c378dc7ea", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing Pasadena, California, USA The Amazon Web Services (AWS) Center for Quantum Computing (CQC) is a multi-disciplinary team of theoretical and experimental physicists, materials scientists, and hardware and software engineers on a mission to develop a fault-tolerant quantum computer. Throughout your internship journey, you'll have access to unparalleled resources, including state-of-the-art computing infrastructure, cutting-edge research papers, and mentorship from industry luminaries. This immersive experience will not only sharpen your technical skills but also cultivate your ability to think critically, communicate effectively, and thrive in a fast-paced, innovative environment where bold ideas are celebrated. Join us at the forefront of applied science, where your contributions will shape the future of Quantum Computing and propel humanity forward. Seize this extraordinary opportunity to learn, grow, and leave an indelible mark on the world of technology. Amazon has positions available for Quantum Research Science and Applied Science Internships in Santa Clara, CA and Pasadena, CA. We are particularly interested in candidates with expertise in any of the following areas: superconducting qubits, cavity/circuit QED, quantum optics, open quantum systems, superconductivity, electromagnetic simulations of superconducting circuits, microwave engineering, benchmarking, quantum error correction, fabrication, etc. Key job responsibilities In this role, you will work alongside global experts to develop and implement novel, scalable solutions that advance the state-of-the-art in the areas of quantum computing. You will tackle challenging, groundbreaking research problems, work with leading edge technology, focus on highly targeted customer use-cases, and launch products that solve problems", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:5e6884da302cd3c20d47566c378dc7ea:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.f0e530e1957e479011", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "5e6884da302cd3c20d47566c378dc7ea", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing Pasadena, California, USA The Amazon Web Services (AWS) Center for Quantum Computing (CQC) is a multi-disciplinary team of theoretical and experimental physicists, materials scientists, and hardware and software engineers on a mission to develop a fault-tolerant quantum computer. Throughout your internship journey, you'll have access to unparalleled resources, including state-of-the-art computing infrastructure, cutting-edge research papers, and mentorship from industry luminaries. This immersive experience will not only sharpen your technical skills but also cultivate your ability to think critically, communicate effectively, and thrive in a fast-paced, innovative environment where bold ideas are celebrated. Join us at the forefront of applied science, where your contributions will shape the future of Quantum Computing and propel humanity forward. Seize this extraordinary opportunity to learn, grow, and leave an indelible mark on the world of technology. Amazon has positions available for Quantum Research Science and Applied Science Internships in Santa Clara, CA and Pasadena, CA. We are particularly interested in candidates with expertise in any of the following areas: superconducting qubits, cavity/circuit QED, quantum optics, open quantum systems, superconductivity, electromagnetic simulations of superconducting circuits, microwave engineering, benchmarking, quantum error correction, fabrication, etc. Key job responsibilities In this role, you will work alongside global experts to develop and implement novel, scalable solutions that advance the state-of-the-art in the areas of quantum computing. You will tackle challenging, groundbreaking research problems, work with leading edge technology, focus on highly targeted customer use-cases, and launch products that solve problems", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:5e6884da302cd3c20d47566c378dc7ea:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.8db53676d4af82bbcb", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "5e6884da302cd3c20d47566c378dc7ea", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:5e6884da302cd3c20d47566c378dc7ea:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.8b30b29d110c9c1923", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "5e6884da302cd3c20d47566c378dc7ea", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:2a08c9ea763219fd967e817d", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.f1770d6746d0c11b00", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "5e6884da302cd3c20d47566c378dc7ea", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "description_excerpt", "source_value": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing Pasadena, California, USA The Amazon Web Services (AWS) Center for Quantum Computing (CQC) is a multi-disciplinary team of theoretical and experimental physicists, materials scientists, and hardware and software engineers on a mission to develop a fault-tolerant quantum computer. Throughout your internship journey, you'll have access to unparalleled resources, including state-of-the-art computing infrastructure, cutting-edge research papers, and mentorship from industry luminaries. This immersive experience will not only sharpen your technical skills but also cultivate your ability to think critically, communicate effectively, and thrive in a fast-paced, innovative environment where bold ideas are celebrated. Join us at the forefront of applied science, where your contributions will shape the future of Quantum Computing and propel humanity forward. Seize this extraordinary opportunity to learn, grow, and leave an indelible mark on the world of technology. Amazon has positions available for Quantum Research Science and Applied Science Internships in Santa Clara, CA and Pasadena, CA. We are particularly interested in candidates with expertise in any of the following areas: superconducting qubits, cavity/circuit QED, quantum optics, open quantum systems, superconductivity, electromagnetic simulations of superconducting circuits, microwave engineering, benchmarking, quantum error correction, fabrication, etc. Key job responsibilities In this role, you will work alongside global experts to develop and implement novel, scalable solutions that advance the state-of-the-art in the areas of quantum computing. You will tackle challenging, groundbreaking research problems, work with leading edge technology, focus on highly targeted customer use-cases, and launch products that solve problems", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.edd149fe592f3d1e54", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "5e6884da302cd3c20d47566c378dc7ea", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "2026 Fall Quantum Applied Science Internship, Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "8e834e7819fb2088c79cd3cce06250fd", "title": "Senior Quantum Engineer, Readout", "employer_name": "Rigetti Quantum Computing", "employer_slug": "rigetti-quantum-computing", "location_text": "Berkeley, CA", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": true, "equity_included_source": null, "equity_type": [ "options" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [ "a16z" ], "posted_at": "2025-10-24T21:34:22.610Z", "apply_url": "https://jobs.lever.co/rigetti/2a4c64d5-92c7-426c-89d0-7197781ef086", "apply_url_verified": false, "ats": "lever", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Senior Quantum Engineer, Readout Berkeley, CA As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. Key Responsibilities - Lead superconducting qubit measurements to characterize dispersive readout of our quantum circuits - Develop novel measurement techniques and pulse optimizations for readout speed or fidelity, and implement them in Rigetti's Python-based calibration and characterization software - Collaborate with theory and simulation teams to build or validate models that describe readout performance - Specify improvements to the quantum chip layout, signal lines, and electronics, work with the hardware and device design teams to build them - Develop protocols to accelerate circuit execution and enable", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 43, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "senior", "years_experience_min": 2, "years_experience_max": 9, "role_function": "engineering", "employer_industry": null, "employer_size": "51-200", "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": false, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.4fdd49a92387198dee", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8e834e7819fb2088c79cd3cce06250fd", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Engineer, Readout Berkeley, CA As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. Key Responsibilities - Lead superconducting qubit measurements to characterize dispersive readout of our quantum circuits - Develop novel measurement techniques and pulse optimizations for readout speed or fidelity, and implement them in Rigetti's Python-based calibration and characterization software - Collaborate with theory and simulation teams to build or validate models that describe readout performance - Specify improvements to the quantum chip layout, signal lines, and electronics, work with the hardware and device design teams to build them - Develop protocols to accelerate circuit execution and enable", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:8e834e7819fb2088c79cd3cce06250fd:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.fd62da8c1cddc8bb4d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8e834e7819fb2088c79cd3cce06250fd", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Quantum Engineer, Readout Berkeley, CA As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. Key Responsibilities - Lead superconducting qubit measurements to characterize dispersive readout of our quantum circuits - Develop novel measurement techniques and pulse optimizations for readout speed or fidelity, and implement them in Rigetti's Python-based calibration and characterization software - Collaborate with theory and simulation teams to build or validate models that describe readout performance - Specify improvements to the quantum chip layout, signal lines, and electronics, work with the hardware and device design teams to build them - Develop protocols to accelerate circuit execution and enable", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:8e834e7819fb2088c79cd3cce06250fd:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.e6be895071eae6e053", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8e834e7819fb2088c79cd3cce06250fd", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "Rigetti Quantum Computing", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:8e834e7819fb2088c79cd3cce06250fd:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.7a74a170efda164ae4", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8e834e7819fb2088c79cd3cce06250fd", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Senior Quantum Engineer, Readout", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:8e834e7819fb2088c79cd3cce06250fd:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.ed6cb68fe2c1f50fae", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8e834e7819fb2088c79cd3cce06250fd", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Senior Quantum Engineer, Readout", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:88e1a8ee8ec51d2d7b776456", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.9864f84fb83be2cb47", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8e834e7819fb2088c79cd3cce06250fd", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "description_excerpt", "source_value": "Senior Quantum Engineer, Readout Berkeley, CA As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. As Senior Quantum Engineer, Readout, you will optimize superconducting qubit readout and reset on Rigetti's quantum processors and fault-tolerant prototypes. You will lead a range of experimental efforts to characterize and improve measurement protocols, signal chains, amplifiers, and device layouts. In collaboration with an interdisciplinary group of engineers in theory, hardware, and chip design, you will advance the speed and fidelity of readout and reset in Rigetti Computing's quantum computing systems to fulfill its ambitious roadmap toward fault tolerance. Key Responsibilities - Lead superconducting qubit measurements to characterize dispersive readout of our quantum circuits - Develop novel measurement techniques and pulse optimizations for readout speed or fidelity, and implement them in Rigetti's Python-based calibration and characterization software - Collaborate with theory and simulation teams to build or validate models that describe readout performance - Specify improvements to the quantum chip layout, signal lines, and electronics, work with the hardware and device design teams to build them - Develop protocols to accelerate circuit execution and enable", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.9954b456179406c6a8", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "8e834e7819fb2088c79cd3cce06250fd", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Senior Quantum Engineer, Readout", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "4fdd726663d5fd41c54a9c3a0fae5b22", "title": "Quantum Signal Train Engineer Internship, Amazon Center for Quantum Computing", "employer_name": "Amazon", "employer_slug": "amazon", "location_text": "Pasadena, California, USA", "country": "US", "employment_type": "internship", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 136000, "salary_max": 184000, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 136000, "base_salary_max": 184000, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "rsu" ], "k401_match": "yes", "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": true, "childcare_subsidy": true, "fertility_family_building_benefits": true, "adoption_assistance_offered": true, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-04-09T00:00:00.000Z", "apply_url": "https://www.amazon.jobs/en/jobs/10387501/quantum-signal-train-engineer-internship-amazon-center-for-quantum-computing", "apply_url_verified": false, "ats": "amazon_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Quantum Signal Train Engineer Internship, Amazon Center for Quantum Computing Pasadena, California, USA The Amazon Center for Quantum Computing in Pasadena, CA, is looking to hire an Applied Science intern who will specialize in hardware signal train design for quantum computing. Working alongside other scientists and engineers, you will design and validate hardware performing the control and readout functions for Amazon quantum processors, from room to cryogenic temperatures. Candidates must have a solid background in analog or mixed-signal design at the PCB level. Working effectively within a cross-functional team environment is critical. Key job responsibilities Our scientists and engineers collaborate across diverse teams and projects to offer state of the art, cost effective solutions for the control of Amazon quantum processor systems. You'll bring a passion for innovation and collaboration to: Design cryogenic and room temperature printed circuit board based hardware, used for signal conditioning and control functions. Develop tests to validate hardware with both benchtop and cryogenic test setups with quantum devices. Explore enabling control technologies necessary for Amazon to produce commercially viable quantum computers. About the team Diverse Experiences Amazon values diverse experiences. Even if you do not meet all of the preferred qualifications and skills listed in the job description, we encourage candidates to apply. If your career is just starting, hasn't followed a traditional path, or includes alternative experiences, don't let it stop you from applying. Work/Life Balance We value work-life harmony. Achieving success at work should never come at the expense of sacrifices at home,", "parental_leave_weeks": 6, "non_birth_parent_leave_weeks": 6, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": "https://www.aboutamazon.com/news/workplace/what-20-weeks-of-fully-paid-leave-does-for-Amazon-families", "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 56, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "entry", "years_experience_min": 0, "years_experience_max": 4, "role_function": "operations", "employer_industry": "Industrial", "employer_size": "5000+", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "bachelors", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.d172310957e57ad796", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "4fdd726663d5fd41c54a9c3a0fae5b22", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Signal Train Engineer Internship, Amazon Center for Quantum Computing Pasadena, California, USA The Amazon Center for Quantum Computing in Pasadena, CA, is looking to hire an Applied Science intern who will specialize in hardware signal train design for quantum computing. Working alongside other scientists and engineers, you will design and validate hardware performing the control and readout functions for Amazon quantum processors, from room to cryogenic temperatures. Candidates must have a solid background in analog or mixed-signal design at the PCB level. Working effectively within a cross-functional team environment is critical. Key job responsibilities Our scientists and engineers collaborate across diverse teams and projects to offer state of the art, cost effective solutions for the control of Amazon quantum processor systems. You'll bring a passion for innovation and collaboration to: Design cryogenic and room temperature printed circuit board based hardware, used for signal conditioning and control functions. Develop tests to validate hardware with both benchtop and cryogenic test setups with quantum devices. Explore enabling control technologies necessary for Amazon to produce commercially viable quantum computers. About the team Diverse Experiences Amazon values diverse experiences. Even if you do not meet all of the preferred qualifications and skills listed in the job description, we encourage candidates to apply. If your career is just starting, hasn't followed a traditional path, or includes alternative experiences, don't let it stop you from applying. Work/Life Balance We value work-life harmony. Achieving success at work should never come at the expense of sacrifices at home,", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:4fdd726663d5fd41c54a9c3a0fae5b22:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.c070b74c318803917f", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "4fdd726663d5fd41c54a9c3a0fae5b22", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Quantum Signal Train Engineer Internship, Amazon Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:4fdd726663d5fd41c54a9c3a0fae5b22:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.ab0dda7ea4d1f90e88", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "4fdd726663d5fd41c54a9c3a0fae5b22", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Quantum Signal Train Engineer Internship, Amazon Center for Quantum Computing", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:3d3f8574140c4a7c88d0a66f", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.2cad8fdfee6e3412d0", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "4fdd726663d5fd41c54a9c3a0fae5b22", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Quantum Signal Train Engineer Internship, Amazon Center for Quantum Computing", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "e913603966c3416642fae099acbfb7cd", "title": "Quantum Applications Scientist", "employer_name": "QuEra Computing", "employer_slug": "quera-computing", "location_text": "Harwell, England, UK", "country": "GB", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 3, "salary_min": null, "salary_max": null, "salary_min_source": null, "salary_max_source": null, "salary_currency": "UNSPECIFIED", "salary_type": "unknown", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": null, "base_salary_min": null, "base_salary_max": null, "salary_disclosed": false, "equity_included": false, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [ "cbinsights_unicorn" ], "posted_at": "2025-10-10T19:22:46.000Z", "apply_url": "https://job-boards.greenhouse.io/queracomputinginc/jobs/4952099008", "apply_url_verified": false, "ats": "greenhouse", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Quantum Applications Scientist Harwell, England, UK Summary QuEra Computing UK is seeking a talented, impact-motivated theoretical researcher with strong expertise in quantum computing applications. You will be a part of the team aiming to co-design novel quantum simulation applications for QuEra's neutral-atom hardware. Working individually and as part of a team, you will interact with academic collaborators, clients, business partners, and other users of quantum computing to address fascinating challenges, from the inclusion of near-term error correction approaches in quantum simulation algorithms to the design of new application pipelines, for example in quantum materials simulation , quantum chemistry or nuclear physics. Qualifications - Ph.D. degree in physics, computer science, or a related discipline, or equivalent professional experience, - A strong background in quantum computing and/or quantum algorithms, including - expertise in quantum simulation applications, preferably in condensed matter physics, quantum materials, nuclear physics and/or quantum chemistry, - expertise in using and/or developing numerical simulation techniques of many-body systems and/or quantum circuits, for example using Pauli propagation, Clifford simulation, tensor networks (MPS, DMRG, etc.), exact diagonalisation, sparse matrix methods, density-functional theory, coupled-cluster + extensions, DMFT - experience in using quantum circuit programming and compilation, for example using Cirq, Qiskit, Tket, CUDA-Q - An exceptional publication record in relevant fields, - Ability to collaborate effectively in cross-functional teams Preferred Qualifications - Knowledge of quantum error correction schemes and quantum simulation in the fault-tolerant era, - Experience translating theoretical ideas and protocols to quantum computing hardware, and - Experience working with or knowledge", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 43, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 3, "years_experience_max": 7, "role_function": "data", "employer_industry": null, "employer_size": "51-200", "quality_score": 45, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.0cad822fec7cb99789", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "e913603966c3416642fae099acbfb7cd", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Applications Scientist Harwell, England, UK Summary QuEra Computing UK is seeking a talented, impact-motivated theoretical researcher with strong expertise in quantum computing applications. You will be a part of the team aiming to co-design novel quantum simulation applications for QuEra's neutral-atom hardware. Working individually and as part of a team, you will interact with academic collaborators, clients, business partners, and other users of quantum computing to address fascinating challenges, from the inclusion of near-term error correction approaches in quantum simulation algorithms to the design of new application pipelines, for example in quantum materials simulation , quantum chemistry or nuclear physics. Qualifications - Ph.D. degree in physics, computer science, or a related discipline, or equivalent professional experience, - A strong background in quantum computing and/or quantum algorithms, including - expertise in quantum simulation applications, preferably in condensed matter physics, quantum materials, nuclear physics and/or quantum chemistry, - expertise in using and/or developing numerical simulation techniques of many-body systems and/or quantum circuits, for example using Pauli propagation, Clifford simulation, tensor networks (MPS, DMRG, etc.), exact diagonalisation, sparse matrix methods, density-functional theory, coupled-cluster + extensions, DMFT - experience in using quantum circuit programming and compilation, for example using Cirq, Qiskit, Tket, CUDA-Q - An exceptional publication record in relevant fields, - Ability to collaborate effectively in cross-functional teams Preferred Qualifications - Knowledge of quantum error correction schemes and quantum simulation in the fault-tolerant era, - Experience translating theoretical ideas and protocols to quantum computing hardware, and - Experience working with or knowledge", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:e913603966c3416642fae099acbfb7cd:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.da34abf4b927233353", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "e913603966c3416642fae099acbfb7cd", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Quantum Applications Scientist Harwell, England, UK Summary QuEra Computing UK is seeking a talented, impact-motivated theoretical researcher with strong expertise in quantum computing applications. You will be a part of the team aiming to co-design novel quantum simulation applications for QuEra's neutral-atom hardware. Working individually and as part of a team, you will interact with academic collaborators, clients, business partners, and other users of quantum computing to address fascinating challenges, from the inclusion of near-term error correction approaches in quantum simulation algorithms to the design of new application pipelines, for example in quantum materials simulation , quantum chemistry or nuclear physics. Qualifications - Ph.D. degree in physics, computer science, or a related discipline, or equivalent professional experience, - A strong background in quantum computing and/or quantum algorithms, including - expertise in quantum simulation applications, preferably in condensed matter physics, quantum materials, nuclear physics and/or quantum chemistry, - expertise in using and/or developing numerical simulation techniques of many-body systems and/or quantum circuits, for example using Pauli propagation, Clifford simulation, tensor networks (MPS, DMRG, etc.), exact diagonalisation, sparse matrix methods, density-functional theory, coupled-cluster + extensions, DMFT - experience in using quantum circuit programming and compilation, for example using Cirq, Qiskit, Tket, CUDA-Q - An exceptional publication record in relevant fields, - Ability to collaborate effectively in cross-functional teams Preferred Qualifications - Knowledge of quantum error correction schemes and quantum simulation in the fault-tolerant era, - Experience translating theoretical ideas and protocols to quantum computing hardware, and - Experience working with or knowledge", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:e913603966c3416642fae099acbfb7cd:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.f1115dd55b0aebe8aa", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "e913603966c3416642fae099acbfb7cd", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Quantum Applications Scientist", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:e913603966c3416642fae099acbfb7cd:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.c267ff624c8d195316", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "e913603966c3416642fae099acbfb7cd", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Quantum Applications Scientist", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:ba1ac41839e40c9e615650c4", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.ba72d4d78850afab34", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "e913603966c3416642fae099acbfb7cd", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "description_excerpt", "source_value": "Quantum Applications Scientist Harwell, England, UK Summary QuEra Computing UK is seeking a talented, impact-motivated theoretical researcher with strong expertise in quantum computing applications. You will be a part of the team aiming to co-design novel quantum simulation applications for QuEra's neutral-atom hardware. Working individually and as part of a team, you will interact with academic collaborators, clients, business partners, and other users of quantum computing to address fascinating challenges, from the inclusion of near-term error correction approaches in quantum simulation algorithms to the design of new application pipelines, for example in quantum materials simulation , quantum chemistry or nuclear physics. Qualifications - Ph.D. degree in physics, computer science, or a related discipline, or equivalent professional experience, - A strong background in quantum computing and/or quantum algorithms, including - expertise in quantum simulation applications, preferably in condensed matter physics, quantum materials, nuclear physics and/or quantum chemistry, - expertise in using and/or developing numerical simulation techniques of many-body systems and/or quantum circuits, for example using Pauli propagation, Clifford simulation, tensor networks (MPS, DMRG, etc.), exact diagonalisation, sparse matrix methods, density-functional theory, coupled-cluster + extensions, DMFT - experience in using quantum circuit programming and compilation, for example using Cirq, Qiskit, Tket, CUDA-Q - An exceptional publication record in relevant fields, - Ability to collaborate effectively in cross-functional teams Preferred Qualifications - Knowledge of quantum error correction schemes and quantum simulation in the fault-tolerant era, - Experience translating theoretical ideas and protocols to quantum computing hardware, and - Experience working with or knowledge", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.e829a0d61216c992f8", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "e913603966c3416642fae099acbfb7cd", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Quantum Applications Scientist", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "3215173659b761614bcbc1e212a78fe3", "title": "Photonics Circuit Designer", "employer_name": "PsiQuantum", "employer_slug": "psiquantum", "location_text": "Palo Alto, California, United States", "country": "US", "employment_type": "full_time", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 120000, "salary_max": 145000, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 120000, "base_salary_max": 145000, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "options" ], "k401_match": null, "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": null, "k401_match_source_fields": [], "k401_contribution_source_url": null, "k401_contribution_source_fields": [], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [ "cbinsights_unicorn", "foundersfund" ], "posted_at": "2026-05-21T17:40:58.000Z", "apply_url": "https://www.psiquantum.com/apply?gh_jid=7743064003", "apply_url_verified": false, "ats": "greenhouse", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Photonics Circuit Designer Palo Alto, California, United States PsiQuantum's mission is to build the first useful quantum computers-machines capable of delivering the breakthroughs the field has long promised. Since our founding in 2016, our singular focus has been to build and deploy million-qubit, fault-tolerant quantum systems. Quantum computers harness the laws of quantum mechanics to solve problems that even the most advanced supercomputers or AI systems will never reach. Their impact will span energy, pharmaceuticals, finance, agriculture, transportation, materials, and other foundational industries. Our architecture and approach is based on silicon photonics. By leveraging the advanced semiconductor manufacturing industry-including partners like GlobalFoundries-we use the same high-volume processes that already produce billions of chips for telecom and consumer electronics. Photonics offers natural advantages for scale: photons don't feel heat, are immune to electromagnetic interference, and integrate with existing cryogenic cooling and standard fiber-optic infrastructure. In 2024, PsiQuantum announced government-funded projects to support the build-out of our first utility-scale quantum computers in Brisbane, Australia, and Chicago, Illinois. These initiatives reflect a growing recognition that quantum computing will be strategically and economically defining-and that now is the time to scale. PsiQuantum also develops the algorithms and software needed to make these systems commercially valuable. Our application, software, and industry teams work directly with leading Fortune 500 companies-including Lockheed Martin, Mercedes-Benz, Boehringer Ingelheim, and Mitsubishi Chemical-to prepare quantum solutions for real-world impact. Quantum computing is not an extension of classical computing. It represents a fundamental shift-and a path to mastering challenges that cannot be", "parental_leave_weeks": null, "non_birth_parent_leave_weeks": null, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": null, "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 47, "benefit_verified": false, "benefit_last_verified": null, "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "mid", "years_experience_min": 5, "years_experience_max": 7, "role_function": "engineering", "employer_industry": null, "employer_size": "51-200", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.200f28f88107f93faa", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "3215173659b761614bcbc1e212a78fe3", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Photonics Circuit Designer Palo Alto, California, United States PsiQuantum's mission is to build the first useful quantum computers-machines capable of delivering the breakthroughs the field has long promised. Since our founding in 2016, our singular focus has been to build and deploy million-qubit, fault-tolerant quantum systems. Quantum computers harness the laws of quantum mechanics to solve problems that even the most advanced supercomputers or AI systems will never reach. Their impact will span energy, pharmaceuticals, finance, agriculture, transportation, materials, and other foundational industries. Our architecture and approach is based on silicon photonics. By leveraging the advanced semiconductor manufacturing industry-including partners like GlobalFoundries-we use the same high-volume processes that already produce billions of chips for telecom and consumer electronics. Photonics offers natural advantages for scale: photons don't feel heat, are immune to electromagnetic interference, and integrate with existing cryogenic cooling and standard fiber-optic infrastructure. In 2024, PsiQuantum announced government-funded projects to support the build-out of our first utility-scale quantum computers in Brisbane, Australia, and Chicago, Illinois. These initiatives reflect a growing recognition that quantum computing will be strategically and economically defining-and that now is the time to scale. PsiQuantum also develops the algorithms and software needed to make these systems commercially valuable. Our application, software, and industry teams work directly with leading Fortune 500 companies-including Lockheed Martin, Mercedes-Benz, Boehringer Ingelheim, and Mitsubishi Chemical-to prepare quantum solutions for real-world impact. Quantum computing is not an extension of classical computing. It represents a fundamental shift-and a path to mastering challenges that cannot be", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:3215173659b761614bcbc1e212a78fe3:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.dd1466cf68dce8100e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "3215173659b761614bcbc1e212a78fe3", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "employer_name", "source_value": "PsiQuantum", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:3215173659b761614bcbc1e212a78fe3:employer:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.employer_name.77336dc3b32253266d", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "3215173659b761614bcbc1e212a78fe3", "signal_type": "query_match", "display_text": "Employer: semantic match", "tooltip": "Employer provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "employer_name", "source_value": "PsiQuantum", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:b0902ccd3b5e6f3452194852", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.employer_name.ec1d8f51ebcb4e3b5f", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "3215173659b761614bcbc1e212a78fe3", "signal_type": "query_match", "display_text": "Employer: \"quantum\"", "tooltip": "Employer contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "employer_name", "source_value": "PsiQuantum", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] }, { "id": "412ad062adf6b199ae5e7466e2adfc92", "title": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI", "employer_name": "Google", "employer_slug": "google", "location_text": "Goleta, CA, USA", "country": "US", "employment_type": "unknown", "remote_status": "unspecified", "remote_status_source": null, "remote_status_enriched_at": null, "days_in_office": null, "timezone_overlap_hours": 6, "salary_min": 262000, "salary_max": 365000, "salary_min_source": null, "salary_max_source": null, "salary_currency": "USD", "salary_type": "base", "salary_type_source": null, "salary_type_enriched_at": null, "salary_period": "year", "base_salary_min": 262000, "base_salary_max": 365000, "salary_disclosed": true, "equity_included": true, "equity_included_source": null, "equity_type": [ "none" ], "k401_match": "yes", "match_401k_pct": null, "match_401k_pct_source": null, "k401_match_source_url": "https://www.askebsa.dol.gov/FOIA%20Files/2024/Latest/F_SCH_H_2024_Latest.zip", "k401_match_source_fields": [ "EMPLR_CONTRIB_INCOME_AMT" ], "k401_contribution_source_url": "https://www.askebsa.dol.gov/FOIA%20Files/2024/Latest/F_SCH_H_2024_Latest.zip", "k401_contribution_source_fields": [ "EMPLR_CONTRIB_INCOME_AMT" ], "profit_sharing": false, "bonus_offered": false, "mental_health_support": null, "childcare_subsidy": null, "fertility_family_building_benefits": null, "adoption_assistance_offered": null, "surrogacy_assistance_offered": null, "student_loan_repayment_offered": null, "learning_budget_offered": null, "relocation_assistance": null, "top_startup_sources": [], "posted_at": "2026-06-05T11:44:27.000Z", "apply_url": "https://www.google.com/about/careers/applications/signin?jobId=CiUAL2FckU0N6o_3h5uZmsR3pyV32c0kgR-QQRIUi6NRAQwxaDFkEjsACxwdTMlGpuSdI2UqCmnEvk2Nyc9IkMl2ZeNUJE0htEJVKoKKHEf-UnUBxcOdkCjHoReEuRL02kVudQ%3D%3D_V2&loc=US&title=Senior+Staff+Research+Scientist", "apply_url_verified": false, "ats": "google_custom", "url_last_checked_alive": null, "removed_at": null, "description_excerpt": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA In this role, you will be a senior researcher on the quantum error correction team within Quantum AI, responsible for setting research agendas into new and improved forms of quantum error correction. You will explore exciting research directions including quantum LDPC codes and compact circuits for non-clifford gates such as magic-state cultivation. As a Research Scientist, you will actively contribute to the wider research community by sharing and publishing your findings, with ideas inspired by internal projects as well as from collaborations with research programs at partner universities and technical institutes all over the world. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications.Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $262000 - $365000 (USD) + 25% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Develop new constructions for non-clifford logical gates. Analyze fault-tolerant circuits for syndrome measurement and logical operations. Minimum qualifications: PhD or equivalent experience in a domain relevant to quantum computing, such as math, physics, computer science, or electrical engineering. 10 years of experience", "parental_leave_weeks": 18, "non_birth_parent_leave_weeks": 18, "parental_leave_weeks_source": null, "non_birth_parent_leave_weeks_source": null, "parental_leave_source_url": "https://blog.google/company-news/outreach-and-initiatives/diversity/international-womens-day-2022/", "pto_days": null, "unlimited_pto": false, "sabbatical_eligible": false, "family_friendly_score": 94, "benefit_verified": true, "benefit_last_verified": "2026-05-07", "hire_states_allowed": [], "state_eligibility_source": null, "state_eligibility_enriched_at": null, "llm_quality_pass_at": null, "seniority": "staff_plus", "years_experience_min": 10, "years_experience_max": 14, "role_function": "engineering", "employer_industry": "Technology", "employer_size": "5000+", "quality_score": 55, "travel_pct": null, "requires_shift": null, "shift_type": "unknown", "shift_type_source": null, "weekend_work": "unknown", "weekend_work_source": null, "relocation_assistance_source": null, "contractor_w2": "unknown", "required_timezone": null, "fertility_family_building_benefits_source": null, "mental_health_support_source": null, "adoption_assistance_offered_source": null, "childcare_subsidy_source": null, "learning_budget_offered_source": null, "surrogacy_assistance_offered_source": null, "cover_letter_required": null, "cover_letter_required_source": null, "assessment_required": null, "assessment_required_source": null, "application_deadline": null, "application_deadline_source": null, "visa_sponsorship": true, "us_citizenship_required": false, "security_clearance": "none", "education_required": "doctorate", "roll_up_count": null, "roll_up_total_locations": null, "explanations": [ { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.26bc13ad2bfea26829", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "412ad062adf6b199ae5e7466e2adfc92", "signal_type": "query_match", "display_text": "Description: \"quantum\"", "tooltip": "Description matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA In this role, you will be a senior researcher on the quantum error correction team within Quantum AI, responsible for setting research agendas into new and improved forms of quantum error correction. You will explore exciting research directions including quantum LDPC codes and compact circuits for non-clifford gates such as magic-state cultivation. As a Research Scientist, you will actively contribute to the wider research community by sharing and publishing your findings, with ideas inspired by internal projects as well as from collaborations with research programs at partner universities and technical institutes all over the world. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications.Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $262000 - $365000 (USD) + 25% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Develop new constructions for non-clifford logical gates. Analyze fault-tolerant circuits for syndrome measurement and logical operations. Minimum qualifications: PhD or equivalent experience in a domain relevant to quantum computing, such as math, physics, computer science, or electrical engineering. 10 years of experience", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:412ad062adf6b199ae5e7466e2adfc92:description:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.eee263a3c86afb4e3e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "412ad062adf6b199ae5e7466e2adfc92", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description matched \"circuits\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "description_excerpt", "source_value": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA In this role, you will be a senior researcher on the quantum error correction team within Quantum AI, responsible for setting research agendas into new and improved forms of quantum error correction. You will explore exciting research directions including quantum LDPC codes and compact circuits for non-clifford gates such as magic-state cultivation. As a Research Scientist, you will actively contribute to the wider research community by sharing and publishing your findings, with ideas inspired by internal projects as well as from collaborations with research programs at partner universities and technical institutes all over the world. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications.Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $262000 - $365000 (USD) + 25% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Develop new constructions for non-clifford logical gates. Analyze fault-tolerant circuits for syndrome measurement and logical operations. Minimum qualifications: PhD or equivalent experience in a domain relevant to quantum computing, such as math, physics, computer science, or electrical engineering. 10 years of experience", "matched_input": "circuits", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:412ad062adf6b199ae5e7466e2adfc92:description:circuits", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.fc6ce7bb0e4158d998", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "412ad062adf6b199ae5e7466e2adfc92", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title matched \"quantum\" from your search.", "source_binding": "bm25_field_evidence", "source_field": "title", "source_value": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI", "matched_input": "quantum", "derivation_source": "candidate_result.raw_match_evidence", "candidate_evidence_id": "ev:gq_4f0347cf8729a3d6afaa:412ad062adf6b199ae5e7466e2adfc92:title:quantum", "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "candidate_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 90, "mobile_priority": 1, "ui": { "icon": "Search", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.semantic.title.9c093dbf07f9d7c83e", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "412ad062adf6b199ae5e7466e2adfc92", "signal_type": "query_match", "display_text": "Title: semantic match", "tooltip": "Title provided semantic evidence for your search intent.", "source_binding": "reranker_semantic_evidence", "source_field": "title", "source_value": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI", "matched_input": "quantum circuits", "derivation_source": "rerank_result.semantic_evidence", "candidate_evidence_id": null, "rerank_evidence_id": "rerank:15f18dbcdc21705d78d1088e", "taxonomy_alias_id": null, "oracle_verification_method": "reranker_evidence_exists", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": false, "priority": 86, "mobile_priority": 2, "ui": { "icon": "Sparkles", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.description_excerpt.c9d53cffa98f91afb5", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "412ad062adf6b199ae5e7466e2adfc92", "signal_type": "query_match", "display_text": "Description: \"circuits\"", "tooltip": "Description contains \"circuits\" from your search.", "source_binding": "token_match", "source_field": "description_excerpt", "source_value": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI Goleta, CA, USA In this role, you will be a senior researcher on the quantum error correction team within Quantum AI, responsible for setting research agendas into new and improved forms of quantum error correction. You will explore exciting research directions including quantum LDPC codes and compact circuits for non-clifford gates such as magic-state cultivation. As a Research Scientist, you will actively contribute to the wider research community by sharing and publishing your findings, with ideas inspired by internal projects as well as from collaborations with research programs at partner universities and technical institutes all over the world. The full potential of quantum computing will be unlocked with a large-scale computer capable of complex, error-corrected computations. Google Quantum AI's mission is to build this computer and unlock solutions to classically intractable problems. Our roadmap is focused on advancing the capabilities of quantum computing and enabling meaningful applications.Individual pay is determined by factors including job-related skills, experience, and relevant education or training. US: $262000 - $365000 (USD) + 25% bonus target + bonus + equity + benefits Learn more about benefits at Google . Develop new quantum codes that achieve high encoding rate, high distance, or favorable layout in hardware. Develop new constructions for non-clifford logical gates. Analyze fault-tolerant circuits for syndrome measurement and logical operations. Minimum qualifications: PhD or equivalent experience in a domain relevant to quantum computing, such as math, physics, computer science, or electrical engineering. 10 years of experience", "matched_input": "circuits", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } }, { "schema_version": "inv382.match_signal.v1", "signal_id": "sig.query.title.0b78c341d85154229c", "query_id": "gq_4f0347cf8729a3d6afaa", "job_id": "412ad062adf6b199ae5e7466e2adfc92", "signal_type": "query_match", "display_text": "Title: \"quantum\"", "tooltip": "Title contains \"quantum\" from your search.", "source_binding": "token_match", "source_field": "title", "source_value": "Senior Staff Research Scientist, Quantum Error Correction, Quantum AI", "matched_input": "quantum", "derivation_source": "row_field", "candidate_evidence_id": null, "rerank_evidence_id": null, "taxonomy_alias_id": null, "oracle_verification_method": "row_field_contains", "counts_for_non_trivial_query": true, "truth_verified": true, "exact": true, "priority": 80, "mobile_priority": 2, "ui": { "icon": "SearchCheck", "tone": "match", "href": null } } ] } ], "total": 37, "page": 1, "per_page": 24, "applied_filters": { "q": "Quantum Circuits" }, "hidden_unknown_benefits_count": 0, "hidden_quality_floor_count": 0, "quality_floor": "default", "search_profile": { "profile_id": "inv382.d6.pg_textsearch_bge_small_rrf.v1", "bm25_extension": "pg_textsearch", "vector_model": "BAAI/bge-small-en-v1.5", "vector_model_version": "v1.5", "fusion_method": "rrf" }, "explanation_context": { "non_trivial_query": true, "query_terms": [ "quantum", "circuits" ], "active_filter_keys": [], "visible_signal_limit": 3, "visible_trust_limit": 2 }, "event_context": null }