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Quantum Engineer Jobs in Virginia (NOW HIRING)

Identify and prioritize quantum sensing use cases across areas such as precision timing ... Experience mentoring scientists, researchers, or engineers and helping bridge theoretical research ...

QBID Quantum Computing SME

Arlington, VA · On-site

$220K - $260K/yr

As a Quantum and Battlefield Information Dominance (QBID) Quantum Computing SME supporting the Office of the Under Secretary of War for Research and Engineering within the Quantum and Battlefield ...

The Quantum Physicist will support a team of skilled researchers to help drive advancements in ... You'll work with world-class scientists and engineers to provide strategic assessments of emerging ...

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Quantum Engineer information

See Virginia salary details

$38.7K

$100.9K

$136.3K

How much do quantum engineer jobs pay per year?

As of Jul 13, 2026, the average yearly pay for quantum engineer in Virginia is $100,879.00, according to ZipRecruiter salary data. Most workers in this role earn between $83,300.00 and $115,500.00 per year, depending on experience, location, and employer.

What are some typical daily responsibilities of a Quantum Engineer?

Quantum Engineers typically spend their days designing and testing quantum algorithms, developing and calibrating quantum hardware, and collaborating with research scientists to solve technical problems. Their work often involves hands-on experimentation in laboratory settings, extensive computer programming, and data analysis using specialized software tools. Quantum Engineers also document their findings, present results to stakeholders, and may contribute to academic publications or patents. This role requires close teamwork with physicists, software developers, and other engineers to advance quantum computing technologies toward real-world applications.

What jobs in the US pay 300,000 a year?

Quantum engineers working in advanced research, technology development, or within high-paying industries such as aerospace, defense, or tech companies can earn salaries around or above $300,000 annually, especially with extensive experience, specialized skills in quantum algorithms, and security clearances. Senior roles, management positions, or those with entrepreneurial ventures in quantum technology also have the potential for such compensation.

What is a Quantum Engineer job?

A Quantum Engineer designs, develops, and optimizes quantum-based technologies, such as quantum computers, sensors, and communication systems. They apply principles of quantum mechanics, electrical engineering, and computer science to build and test quantum devices. Their work involves hardware development, quantum algorithms, and error correction techniques. Quantum Engineers often collaborate with physicists and software developers to advance quantum technology for real-world applications.

What are the key skills and qualifications needed to thrive in the Quantum Engineer position, and why are they important?

To thrive as a Quantum Engineer, you need strong expertise in quantum mechanics, mathematics, and programming, typically supported by an advanced degree in physics, electrical engineering, or a related field. Familiarity with quantum computing platforms like IBM Qiskit, cryogenic systems, and proficiency in languages such as Python or C++ is often required, along with relevant certifications or research experience. Strong problem-solving skills, effective collaboration, and adaptability are crucial soft skills in this rapidly evolving technical field. Mastering these abilities enables Quantum Engineers to solve complex challenges, drive innovative solutions, and succeed in multidisciplinary, cutting-edge environments.

What do you do as a quantum engineer?

A quantum engineer designs, develops, and tests quantum computing systems and technologies. They work with quantum algorithms, hardware such as qubits, and control systems, often using programming languages like Python and specialized tools. Their role involves research, experimentation, and collaboration with multidisciplinary teams to advance quantum applications.

What engineers make $500,000?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and aerospace engineering can earn $500,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. High compensation often involves working in high-demand industries, managing large teams, or holding executive-level positions.

What did Elon Musk say about quantum computing?

Elon Musk has expressed interest in quantum computing's potential to revolutionize technology, but he has also highlighted challenges such as error correction and hardware development. As a CEO and innovator, he emphasizes the importance of advancing quantum research to unlock future capabilities, which could impact fields like artificial intelligence and cryptography relevant to quantum engineers.
What job categories do people searching Quantum Engineer jobs in Virginia look for? The top searched job categories for Quantum Engineer jobs in Virginia are:
What cities in Virginia are hiring for Quantum Engineer jobs? Cities in Virginia with the most Quantum Engineer job openings:
Quantum Science Lead

Full-time

Posted 11 days ago


Job description

Description

Tyto Athene is seeking a Quantum Science Lead to provide scientific leadership across our Quantum Practice, with primary emphasis on quantum sensing, quantum networking, and quantum hardware readiness. This individual will help translate advances in quantum science into practical mission applications for U.S. Federal Government, Department of Defense, Intelligence Community, and National Security customers.

The successful candidate will shape Tyto Athene's technical point of view on quantum sensing and networking, monitor the evolution of quantum computing hardware, and advise customers and internal teams on where emerging quantum technologies can create mission value.

Responsibilities:

Quantum Sensing

  • Lead Tyto Athene's strategy and technical point of view for quantum sensing, with emphasis on practical customer applications and near- to mid-term mission relevance.
  • Identify and prioritize quantum sensing use cases across areas such as precision timing, positioning and navigation, electromagnetic sensing, gravimetry, imaging, RF sensing, inertial sensing, and advanced measurement.
  • Assess the maturity, performance, and deployment readiness of quantum sensing technologies, including sensitivity, stability, size, weight, power, environmental constraints, and integration requirements.
  • Translate quantum sensing advances into customer-relevant concepts, including mission applications, pilot opportunities, demonstrations, and transition strategies.
  • Help shape differentiated offerings around quantum sensing assessment, roadmap development, mission discovery, pilot design, and technology transition.

Quantum Networking

  • Lead Tyto Athene's technical perspective on quantum networking and quantum communications beyond PQC migration.
  • Track developments in entanglement distribution, quantum repeaters, quantum memories, quantum transduction, distributed quantum sensing, and quantum network testbeds.
  • Assess the maturity, deployment constraints, infrastructure dependencies, standards activity, and realistic adoption timelines for quantum networking technologies.
  • Identify customer use cases where quantum networking may create future value, including secure communications concepts, distributed sensing, time synchronization, and connections between future quantum systems.
  • Partner with the PQC lead to maintain clear swim lanes between cryptographic modernization, QKD-related concepts, quantum-secure communications, and broader quantum networking strategy.

Quantum Science and Hardware Readiness

  • Serve as a senior scientific authority within the Quantum Practice, with emphasis on quantum devices, sensing, networking, and hardware readiness.
  • Monitor progress across quantum computing hardware modalities and assess implications for customer missions, adoption timelines, technical risk, and investment decisions.
  • Evaluate emerging quantum hardware architectures, including maturity, scalability, error correction trajectory, operational constraints, and relevance to future customer use cases.
  • Work with the Quantum Algorithm lead to assess how hardware advances may affect algorithm feasibility, benchmarking, and customer-facing roadmaps, while preserving algorithm development as a separate swim lane.
  • Develop technical papers, white papers, briefings, and thought leadership materials that advance Tyto Athene's quantum capabilities and support customer missions.
Qualifications

Required:

  • PhD in Quantum Physics, Quantum Information Science, Applied Physics, Mathematics, Computer Science, or a closely related discipline.
  • 5+ years of experience in quantum sensing, quantum networking, quantum information science, quantum devices, or related fields.
  • Deep understanding of quantum mechanics, quantum information science, and at least one applied quantum technology domain such as quantum sensing, quantum networking, quantum communications, or quantum hardware systems.
  • Strong familiarity with quantum sensing and/or quantum networking technologies, including current maturity, operational constraints, and potential mission applications.
  • Working knowledge of quantum computing hardware architectures and the technical factors affecting hardware readiness, scalability, and adoption timelines.
  • Record of peer-reviewed publications, technical research, patents, or other recognized contributions to the field.
  • Ability to communicate complex scientific concepts to both technical and executive audiences.
  • Experience leading research initiatives and influencing technical strategy.

Desired:

  • Experience prototyping, demonstrating, or transitioning a quantum sensing or networking capability.
  • Experience supporting DoD, Intelligence Community, Department of Energy, national laboratory, or federally funded research programs.
  • Experience collaborating with multidisciplinary teams spanning physics, mathematics, software engineering, AI/ML, and systems engineering.
  • Patents, publications, or recognized contributions in quantum sensing, quantum networking, quantum communications, quantum devices, measurement science, or quantum hardware systems.
  • Experience mentoring scientists, researchers, or engineers and helping bridge theoretical research with practical implementation.

Clearance:

  • Active TS/SCI clearance or ability to obtain one.
About Tyto Athene

Compensation:

  • Compensation is unique to each candidate and relative to the skills and experience they bring to the position. This does not guarantee a specific salary as compensation is based upon multiple factors such as education, experience, certifications, and other requirements, and may fall outside of the above-stated range.
Tyto Athene is a trusted leader in IT services and solutions, delivering mission-focused digital transformation that drives measurable success. Our expertise spans four core technology domains-Network Modernization, Hybrid Cloud, Cybersecurity, and Enterprise IT-empowering our clients with cutting-edge solutions tailored to their evolving needs. With over 50 years of experience, Tyto Athene proudly support Defense, Intelligence, Space, National Security, Civilian, Health, and Public Safety clients across the United States and worldwide.  At Tyto Athene, we believe that success starts with our people. We foster a collaborative, innovative, and mission-driven environment where every team member plays a critical role in shaping the future of technology. Are you ready to join #TeamTyto?  Tyto Athene, LLC is an Equal Opportunity Employer; all qualified applicants will receive consideration for employment without regard to race, color, religion, sex, [sexual orientation, gender identity,] national origin, disability, status as a protected veteran, or any characteristic protected by applicable law.Employment Type: FULL_TIME