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$55.2K

$121.3K

$183.5K

How much do quantum electrical engineer jobs pay per year?

As of May 28, 2026, the average yearly pay for quantum electrical engineer in Massachusetts is $121,325.00, according to ZipRecruiter salary data. Most workers in this role earn between $90,600.00 and $144,200.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Quantum Electrical Engineer, and why are they important?

To thrive as a Quantum Electrical Engineer, you need a strong background in electrical engineering, quantum mechanics, and advanced mathematics, typically supported by a relevant degree such as a master's or PhD. Experience with quantum simulation software, cryogenic systems, and laboratory instrumentation, along with familiarity with programming languages like Python or MATLAB, is highly valued. Analytical thinking, problem-solving abilities, and strong teamwork and communication skills help professionals excel in this multidisciplinary field. These competencies are crucial for advancing quantum technology research and development, ensuring innovation and practical implementation in this cutting-edge industry.

How does a Quantum Electrical Engineer typically collaborate with multidisciplinary teams on quantum technology projects?

Quantum Electrical Engineers frequently work alongside physicists, software engineers, and materials scientists to design and optimize quantum devices and systems. Collaboration is key, as these engineers integrate electrical engineering principles with quantum mechanics, ensuring that hardware meets the stringent requirements for quantum coherence and signal integrity. Regular team meetings, joint troubleshooting sessions, and cross-functional project planning are common, enabling efficient progress from initial design through to experimental validation and scaling. Such teamwork helps bridge the gap between theoretical concepts and practical, scalable quantum technology.

What are Quantum Electrical Engineers?

Quantum Electrical Engineers are professionals who design, develop, and test electronic systems and devices that operate based on quantum mechanical principles. They work on technologies such as quantum computers, quantum sensors, and quantum communication systems, integrating quantum theory with electrical engineering. Their work often involves research and development in both hardware and software to advance emerging quantum technologies.

What is the difference between Quantum Electrical Engineer vs Quantum Hardware Engineer?

AspectQuantum Electrical EngineerQuantum Hardware Engineer
Required CredentialsBachelor's or Master's in Electrical Engineering, Physics, or related fields; knowledge of quantum electronicsBachelor's or Master's in Electrical Engineering, Physics, or related fields; focus on hardware design
Work EnvironmentResearch labs, tech companies, industry R&DLaboratories, manufacturing facilities, research institutions
Employer & Industry UsageQuantum computing companies, tech firms, research institutionsQuantum hardware startups, research labs, semiconductor companies

Both roles often require similar educational backgrounds and work in related environments, but Quantum Electrical Engineers focus more on electronic components and circuit design for quantum systems, while Quantum Hardware Engineers concentrate on building and testing quantum devices and hardware components.

What are popular job titles related to Quantum Electrical Engineer jobs in Massachusetts? For Quantum Electrical Engineer jobs in Massachusetts, the most frequently searched job titles are:
What job categories do people searching Quantum Electrical Engineer jobs in Massachusetts look for? The top searched job categories for Quantum Electrical Engineer jobs in Massachusetts are:
What cities in Massachusetts are hiring for Quantum Electrical Engineer jobs? Cities in Massachusetts with the most Quantum Electrical Engineer job openings:
Quantum Electrical Engineer jobs near you
98: Associate Staff Quantum Science and Engineering

98: Associate Staff Quantum Science and Engineering

MIT Lincoln Laboratory

Lexington, MA

Other

Medical, Dental, Vision, Retirement, PTO

Posted 2 days ago

Job description

The Advanced Quantum Technologies Group focuses on accelerating quantum computing and quantum sensing using ion and solid-state platforms. Core areas of the Group include fundamental quantum science to guide next-generation advances, quantum devices (ion computing testbeds, precision clocks, magnetometers, and other sensors), and quantum systems such as magnetic-assisted navigation and quantum microscopy for microelectronics diagnostics.

Job Description

The Advanced Quantum Technologies Group seeks a highly motivated, detail-oriented, curious, and driven physicist, applied physicist, or electrical engineer with hands-on laboratory experience. The successful candidate will join a close-knit, dynamic team pushing the forefront of quantum sensing, with emphasis on solid-state spin-based sensors and their integration into practical systems. As an active participant in cutting-edge research and development, the candidate can expect to face novel physics and engineering problems that require creative solutions daily. This position involves working at the forefront of quantum technology to develop quantum sensing and imaging systems and the applications for these systems.

The candidate will contribute to building optical testbeds and sensing prototypes; integrating optical, RF/microwave, electronic, mechanical, and cryogenic subsystems; developing measurement control software and data analysis pipelines; performing precision measurements; and assisting in optimizing sensor performance in alignment with application and system-level requirements. The successful candidate will have opportunities to grow into increasing technical responsibility as part of the Laboratory's expanding quantum sensing portfolio.

Major Responsibilities

Applicants should have a broad skillset and a willingness to work on a wide variety of tasks as needed. Typical tasks are:

  • Hardware development, design, and construction (e.g. optical, RF/microwave, electronic, mechanical, cryogenic subsystems)
  • Build and maintain optical testbeds and magnetic sensing prototypes
  • System engineering and system integration
  • Test and measurement
  • Physics modeling of quantum systems
  • Software programming for instrument control and data acquisition
  • Data analysis and signal/image processing
  • Laboratory validation and field testing

While a broad set of skills is desired, the majority of day-to-day tasks will be tailored to the applicant's specific interests and strengths. Applicants should be comfortable both working alone in a self-directed manner and also working closely with a highly integrated larger team.

Required Qualifications
  • Master's degree in Physics, Applied Physics, Electrical Engineering, or related field
  • Basic laboratory experience (e.g., familiarity with oscilloscopes, spectrum analyzers, analog circuits)
  • Comfort with fundamental physical concepts and rigorous analytical analysis
  • Experience in self-directed and group technical projects and research endeavors
  • Experience using MATLAB and/or Mathematica
  • Strong communication skills and the ability to work collaboratively as part of a team
Preferred Qualifications
  • Laser and optics experience
  • RF, microwave, or analog circuit design
  • Familiarity with spin systems, magnetometry, or solid-state defect centers
  • Coursework or research experience in atomic, molecular, and optical (AMO) physics or solid-state physics
  • Scientific programming skills (Python, MATLAB, LabView, Mathematica, etc.)
  • Experience with signal processing, image reconstruction, or sensor data analysis
  • CAD design (e.g. SolidWorks)
  • Embedded systems programming
  • Familiarity with cryogenic, vacuum, or field-deployable instrumentation systems

Recent Graduate Hiring Range: $116,400-$140,000
Experienced Hiring Range: $116,400-$182,200

Disclaimer: MIT Lincoln Laboratory provides a typical hiring range as a good faith estimate of what we reasonably expect to offer for this position at the time of posting. The final salary offered to a selected candidate will depend on various factors, including-but not limited to-the scope and responsibilities of the role, the candidate's experience, skills and education/training, internal equity considerations and applicable legal requirements. This range reflects base salary only and does not include additional forms of compensation or benefits.

At MIT Lincoln Laboratory, our exceptional career opportunities include many outstanding benefits to help you stay healthy, feel supported, and enjoy a fulfilling work-life balance. Benefits offered to employees include: 

  • Comprehensive health, dental, and vision plans
  • MIT-funded pension
  • Matching 401K
  • Paid leave (including vacation, sick, parental, military, etc.)
  • Tuition reimbursement and continuing education programs
  • Mentorship programs
  • A range of work-life balance options
  • ... and much more!  

Please visit our Benefits page for more information. As an employee of MIT, you can also take advantage of other voluntary benefits, discounts and perks.

Selected candidate will be subject to a pre-employment background investigation and must be able to obtain and maintain a Secret level DoD security clearance.

MIT Lincoln Laboratory is an Equal Employment Opportunity (EEO) employer. All qualified applicants will receive consideration for employment and will not be discriminated against on the basis of race, color, religion, sex, sexual orientation, gender identity, national origin, age, veteran status, disability status, or genetic information; U.S. citizenship is required.

Requisition ID: 43011

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