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Mems Research Jobs (NOW HIRING)

... MEMS Advanced Design. The Bosch wireless sensors and embedded systems research group is looking for an enthusiastic graduate student intern to work on product oriented research. We seek an ideal ...

... MEMS Advanced Design. The Bosch wireless sensors and embedded systems research group is looking for an enthusiastic graduate student intern to work on product oriented research. We seek an ideal ...

... MEMS design. As a part of the global research, our AI research in Pittsburgh focuses on Multimodal Foundation Models, AI-based Sensing, Driving assistance, agentic AI, and efficient GenAI. We develop ...

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Mems Research information

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$17.5K

$82.2K

$154.5K

How much do mems research jobs pay per year?

As of Jul 14, 2026, the average yearly pay for mems research in the United States is $82,164.00, according to ZipRecruiter salary data. Most workers in this role earn between $56,500.00 and $112,000.00 per year, depending on experience, location, and employer.

What engineer makes $500,000 a year?

Senior engineers in specialized fields such as software engineering, petroleum engineering, or aerospace engineering can earn $500,000 or more annually, especially with experience, bonuses, and stock options. High-level roles often require advanced skills, certifications, and leadership responsibilities.

What are MEMS researchers?

MEMS researchers are professionals who study and develop Micro-Electro-Mechanical Systems (MEMS), which are tiny integrated devices or systems that combine electrical and mechanical components at the microscale. They work on designing, fabricating, and testing these miniaturized systems for use in various applications like sensors, actuators, medical devices, and consumer electronics. MEMS researchers often collaborate with engineers and scientists from multiple disciplines to innovate and improve the performance and reliability of MEMS technologies.

Can mechanical engineers work in R&D?

Yes, mechanical engineers often work in research and development (R&D) roles, where they apply their knowledge of mechanics, materials, and design to develop new products and technologies. R&D positions typically require strong problem-solving skills, proficiency with CAD software, and a background in engineering principles.

What does a mems engineer do?

A MEMS engineer designs, develops, and tests microelectromechanical systems (MEMS), which are tiny devices combining mechanical and electrical components. They work with tools like CAD software and cleanroom environments, focusing on sensor and actuator development for applications in industries such as healthcare, automotive, and consumer electronics.

What is the difference between Mems Research vs Mems Design?

AspectMems ResearchMems Design
CredentialsTypically requires a degree in electrical, mechanical, or materials engineering, often with research experienceRequires similar engineering degrees, with focus on design tools and CAD software
Work EnvironmentResearch labs, academic institutions, or R&D departmentsDesign studios, manufacturing facilities, or R&D teams
Industry UsageFocuses on exploring new materials, processes, and device conceptsFocuses on creating detailed device designs for fabrication
Common Search & ComparisonOften compared with Mems Design due to overlapping skills and goals

In summary, Mems Research involves exploring new materials and device concepts, often in academic or lab settings, while Mems Design focuses on creating detailed device layouts for manufacturing. Both roles require engineering backgrounds but differ in their primary focus and work environment.

What are some typical challenges faced by professionals working in MEMS research, and how can job seekers prepare to overcome them?

Professionals in MEMS (Micro-Electro-Mechanical Systems) research often encounter challenges such as interdisciplinary collaboration, rapid technological advancements, and the need for precise fabrication and testing. Researchers must frequently work with experts in electronics, materials science, and mechanical engineering, requiring strong communication and teamwork skills. Staying current with the latest fabrication techniques and simulation tools is essential, as is developing problem-solving abilities to address unexpected issues in device performance. Candidates can prepare by gaining hands-on laboratory experience, engaging in cross-disciplinary projects, and keeping up-to-date with recent publications in the field.

What are the key skills and qualifications needed to thrive as a MEMS Researcher, and why are they important?

To excel as a MEMS Researcher, you need a strong background in microfabrication, materials science, and physics, typically supported by an advanced degree in electrical engineering or a related field. Familiarity with CAD tools, cleanroom processes, and characterization instruments like SEM or AFM is essential, along with experience in simulation software such as COMSOL. Critical thinking, problem-solving, and effective collaboration skills help researchers innovate and navigate complex technical challenges. These competencies are vital for advancing MEMS technology and ensuring successful project outcomes in multidisciplinary research environments.

What is the highest paying medical research job?

In medical research, senior roles such as Principal Investigator or Director of Research typically have the highest salaries, often exceeding $150,000 annually. These positions require extensive experience, advanced degrees, and leadership skills, and they often involve managing large research projects and teams.
More about Mems Research jobs
What cities are hiring for Mems Research jobs? Cities with the most Mems Research job openings:
What states have the most Mems Research jobs? States with the most job openings for Mems Research jobs include:
Infographic showing various Mems Research job openings in the United States as of July 2026, with employment types broken down into 1% Locum Tenens, 88% As Needed, 10% Full Time, and 1% Summer. Highlights an 97% Physical, 2% Hybrid, and 1% Remote job distribution, with an average salary of $82,164 per year, or $39.5 per hour.
Principal Photonics Integrated Circuit Test Engineer

Principal Photonics Integrated Circuit Test Engineer

Raytheon Technologies

San Diego, CA • On-site

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Re-posted 16 days ago


Job description

Date Posted:
2026-07-06
Country:
United States of America
Location:
US-CA-SAN DIEGO-15110 ~ 15110 Ave of Science ~ SCIENCE, Ste 200
Position Role Type:
Onsite
U.S. Citizen, U.S. Person, or Immigration Status Requirements:
The ability to obtain and maintain a U.S. government issued security clearance is required. U.S. citizenship is required, as only U.S. citizens are eligible for a security clearance
Security Clearance Type:
DoD Clearance: Secret
Security Clearance Status:
Active and existing security clearance required after day 1
At Raytheon, the foundation of everything we do is rooted in our values and a higher calling - to help our nation and allies defend freedoms and deter aggression. We bring the strength of more than 100 years of experience and renowned engineering expertise to meet the needs of today's mission and stay ahead of tomorrow's threat. Our team solves tough, meaningful problems that create a safer, more secure world.
Raytheon is seeking a talented and motivated Principal Photonics Integrated Circuit Test Engineer to join our Surface Radars and Sensors Center within the Systems Engineering and Test Capabilities (SETC) Discipline, supporting Advanced Technology (AT) Programs. This role offers the opportunity to work on cutting-edge technologies and contribute to the development of next-generation systems. The successful candidate will bring expertise in Systems Engineering, Design, and Testing, with a focus on characterizing photonic and RF components as well as sub-system assemblies in support of advanced research and development programs.
What You Will Do
  • Develop and conduct testing for integrated photonic components, sub-systems, and systems at the die (PICs), wafer, and sub-assembly levels.
  • Implement test methodologies to evaluate photonic device performance based on design specifications, optical power, polarization, spectra, and environmental conditions.
  • Contribute to the selection of COTS/custom photonic components (discrete and silicon photonics), RF electronics, mixed-signal electronics, and embedded/digital signal processing solutions for wideband electronic and hybrid electronic-photonic development programs.
  • Design mechanical fixtures and identify accessories to enhance and expand benchtop test capabilities.
  • Perform architectural trade studies on systems and sub-systems related to wideband RF and hybrid electronic-photonic components and sub-systems.
  • Support the development and implementation of new hybrid electronic-photonic capabilities.
  • Provide guidance, coaching, mentoring, and training to employees across the business in areas of expertise.

Qualifications You Must Have
  • Typically requires a degree in Science, Technology, Engineering, or Mathematics (STEM) and 8 years of prior relevant experience.
  • Lab experience in optical engineering tests, optical alignment systems, fiber-waveguide coupling, and/or design verification testing.
  • Experience in Silicon Photonics, Optoelectronics, MEMS R&D, and/or related photonics product development.

Qualifications We Prefer
  • Proficiency in programming languages for test automation and accurate, efficient data acquisition.
  • Experience in RF testing and characterization of photonic devices, including the use of tunable lasers, OSAs, switches, and attenuators.
  • Familiarity with discrete and integrated components (Silicon, Silicon Nitride, and compound-semiconductor technologies).
  • Hands-on experience with high-speed test equipment such as bit error rate testers, digital communication analyzers, real-time oscilloscopes, and vector network analyzers.
  • Experience with silicon and compound semiconductor fabrication technologies.
  • Proficiency in integrated photonics modeling and electronic design tools (e.g., Ansys HFSS, Lumerical, Cadence, Synopsis).
  • Knowledge of microelectronic and photonic integrated circuit packaging technologies.
  • Experience with high-performance mixed-signal systems (ADCs, DACs, FPGAs).
  • Demonstrated excellence in engaging with customers and decision-makers.
  • Advanced degree (MS or PhD) in Physics, Optics, Photonics, or a related field.

What We Offer
  • Our values drive our actions, behaviors, and performance with a vision for a safer, more connected world. At RTX we value: Safety, Trust, Respect, Accountability, Collaboration, and Innovation.

  • Relocation Eligibility- Relocation assistance available

Learn More & Apply Now!
  • Please consider the following role type definition as you apply for this role.
  • Onsite: Employees who are working in Onsite roles will work primarily onsite. This includes all production and maintenance employees, as they are essential to the development of our products

As part of our commitment to maintaining a secure hiring process, candidates may be asked to attend select steps of the interview process in-person at one of our office locations, regardless of whether the role is designated as on-site, hybrid or remote.
The salary range for this role is 118,300 USD - 224,900 USD. The salary range provided is a good faith estimate representative of all experience levels. RTX considers several factors when extending an offer, including but not limited to, the role, function and associated responsibilities, a candidate's work experience, location, education/training, and key skills.
Hired applicants may be eligible for benefits, including but not limited to, medical, dental, vision, life insurance, short-term disability, long-term disability, 401(k) match, flexible spending accounts, flexible work schedules, employee assistance program, Employee Scholar Program, parental leave, paid time off, and holidays. Specific benefits are dependent upon the specific business unit as well as whether or not the position is covered by a collective-bargaining agreement.
Hired applicants may be eligible for annual short-term and/or long-term incentive compensation programs depending on the level of the position and whether or not it is covered by a collective-bargaining agreement. Payments under these annual programs are not guaranteed and are dependent upon a variety of factors including, but not limited to, individual performance, business unit performance, and/or the company's performance.
This role is a U.S.-based role. If the successful candidate resides in a U.S. territory, the appropriate pay structure and benefits will apply.
RTX anticipates the application window closing approximately 40 days from the date the notice was posted. However, factors such as candidate flow and business necessity may require RTX to shorten or extend the application window.
RTX 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, age, disability or veteran status, or any other applicable state or federal protected class. RTX provides affirmative action in employment for qualified Individuals with a Disability and Protected Veterans in compliance with Section 503 of the Rehabilitation Act and the Vietnam Era Veterans' Readjustment Assistance Act.
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