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Research Scientist Optoelectronics Jobs (NOW HIRING)

Infotech Sourcing

Research Scientist III

Redmond, WA

Research Scientist III Location: Redmond WA Onsite Duration: 12 months with possible extension ... Develop next-generation optoelectronic materials with an emphasis on advanced design, fabrication ...

Infotech Sourcing

Research Scientist III

Redmond, WA · On-site

Research Scientist III Location: Redmond WA Onsite Duration: 12 months with possible extension ... Develop next-generation optoelectronic materials with an emphasis on advanced design, fabrication ...

Orbotech

Research Scientist

Ann Arbor, MI

$105K - $180K/yr

... Research Scientist to join our CTO group in Ann Arbor, Michigan! Requirements: * Background in ... Experienced in optical and optoelectronic device physics simulations (Zemax, COMSOL, Lumerical, etc.

New

Orbotech

Research Scientist

Milpitas, CA

$105K - $180K/yr

... Research Scientist to join our CTO group in Ann Arbor, Michigan! Requirements: * Background in ... Experienced in optical and optoelectronic device physics simulations (Zemax, COMSOL, Lumerical, etc.

New

3M

Optics Research Scientist

Maplewood, MN

$124K - $151K/yr

Optics Research Scientist Collaborate with Innovative 3Mers Around the World Choosing where to ... Experience working with optical materials such as fiber optics, photonics, or optoelectronics ...

3M

Optics Research Scientist

Maplewood, MN · On-site

$124K - $151K/yr

Optics Research Scientist Collaborate with Innovative 3Mers Around the World Choosing where to ... Experience working with optical materials such as fiber optics, photonics, or optoelectronics ...

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Research Scientist Optoelectronics information

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$50.5K

$130.1K

$174K

How much do research scientist optoelectronics jobs pay per year?

As of Jun 11, 2026, the average yearly pay for research scientist optoelectronics in the United States is $130,117.00, according to ZipRecruiter salary data. Most workers in this role earn between $107,500.00 and $173,000.00 per year, depending on experience, location, and employer.

What is the difference between Research Scientist Optoelectronics vs Research Engineer Optoelectronics?

AspectResearch Scientist OptoelectronicsResearch Engineer Optoelectronics
CredentialsTypically requires a PhD in physics, electrical engineering, or related fieldsUsually holds a Master's or Bachelor's degree in engineering or related disciplines
Work EnvironmentFocuses on fundamental research, experiments, and developing new technologiesEmphasizes applied research, prototype development, and product testing
Employer & Industry UsageCommonly employed in academia, research labs, and R&D departments of tech companiesOften found in industry R&D, manufacturing, and product development teams

Research Scientist Optoelectronics primarily conducts fundamental research and develops new technologies, often requiring a PhD. In contrast, Research Engineers focus on applying research to develop prototypes and products, typically holding a Master's or Bachelor's degree. Both roles are vital in advancing optoelectronic technologies but differ in their focus and work environment.

What is a Research Scientist in Optoelectronics?

A Research Scientist in Optoelectronics is a professional who studies and develops technologies that use the interaction between light and electronic devices. Their work often involves designing, testing, and improving components like lasers, LEDs, photodetectors, and optical fibers. These scientists contribute to advancements in fields such as telecommunications, medical devices, and renewable energy. They typically work in research labs, universities, or high-tech industries, focusing on both fundamental research and practical applications.

What are some common challenges faced by Research Scientists in Optoelectronics when transitioning projects from the lab to commercial applications?

Research Scientists in Optoelectronics frequently encounter challenges when moving projects from the lab to commercial products, such as scaling up fabrication processes, ensuring consistent device performance, and meeting industry standards for reliability. Collaborating closely with multidisciplinary teams—including engineers, manufacturers, and quality assurance professionals—is essential to address these issues. Additionally, scientists must stay current with rapid technological advancements and adapt their research to align with market demands, making flexibility and strong communication skills crucial in this role.

What are the key skills and qualifications needed to thrive as a Research Scientist in Optoelectronics, and why are they important?

To thrive as a Research Scientist in Optoelectronics, you need advanced knowledge in physics, materials science, and electronic engineering, typically supported by a PhD or master's degree in a relevant field. Experience with simulation software, photonic measurement systems, and fabrication tools, as well as familiarity with laboratory safety and data analysis tools, is essential. Strong analytical thinking, problem-solving abilities, and effective communication skills help you collaborate with multidisciplinary teams and present complex findings. These skills and qualities are crucial for driving innovation, ensuring experimental accuracy, and successfully advancing optoelectronic technologies.
Infographic showing various Research Scientist Optoelectronics job openings in the United States as of June 2026, with employment types broken down into 6% As Needed, 29% Full Time, and 65% Part Time. Highlights an 89% Physical, 3% Hybrid, and 8% Remote job distribution, with an average salary of $130,117 per year, or $62.6 per hour.
Research Scientist III

Research Scientist III

Infotech Sourcing

Redmond, WA

Other

Posted 3 days ago

Job description

Research Scientist III

Location: Redmond WA Onsite

Duration: 12 months with possible extension.

.
Meta Reality Labs brings together a world-class team of researchers, developers, and engineers to create the future of virtual and augmented reality, which together will become as universal and essential as smartphones and personal computers are today. And just as personal computers have done over the past 45 years, AR and VR will ultimately change everything about how we work, play, and connect. We are developing all the technologies needed to enable breakthrough AR glasses and VR headsets, including optics and displays, computer vision, audio, graphics, brain-computer interface, haptic interaction, eye/hand/face/body tracking, perception science, and true telepresence. Some of those will advance much faster than others, but they all need to happen to enable AR and VR devices that are so compelling they become an integral part of our lives.
Beyond working within current paradigms to realize our vision, Reality Labs is heavily
invested in materials research and development at the fundamental level. This involves,
but is not limited to, designing and characterizing materials yet to be discovered, for highly
specific applications.
Responsibilities:
The position involves designing, building and automating an established workflow for the experimental screening of organic materials. Built on current in-house processes, this will streamline data acquisition required for the development of novel optoelectronic materials.
Develop next-generation optoelectronic materials with an emphasis on advanced design, fabrication, and analysis, to prove new concepts and understand the potential impact of those concepts.
Collaborate with the larger Meta Reality Labs Research team to holistically understand current goals, limitations, and bottlenecks in the wider AR/VR space.
Build with and develop an intimate understanding of equipment designed for high-throughput experiments.
Design and automate novel crystal growth, processing, and analysis techniques, with a focus on highly specific components and devices.
Communicate results internally and with external partners.
Assist in the translation of research results to practical application in Meta product development.
Minimum Qualifications:
PhD or Masters in Physics, Chemistry, Optical Science and Engineering, Electrical Engineering, or relevant technical field.
Must obtain work authorization in the country of employment at the time of hire and maintain ongoing work authorization during employment.
Experience programming hardware interfaces (e.g., serial/I2C/SPI communication, DAQ systems, motion control) using Python, LabVIEW, C, or similar languages.
2+ years experience in at least one of the following areas: chemistry, materials, organic materials, crystallization, nucleation, solid state analysis, optoelectronic materials.
2+ years experience, experimental laboratory work (i.e., demonstrated ability to take concepts, adapt them and translate them to the bench-top).
Preferred Qualifications:
Proven track record of achieving significant results as demonstrated by grants, fellowships, patents, as well as first-authored publications at relevant high-impact journals.
Experience with solid-state analysis: e.g. diffuse reflectance, XRD, spectroscopy, DSC, optical microscopy.
Experience with crystallographic software (e.g. CCDC suite, BGMN, Profex, Olex2).
Experience with HPLC, LC-MS, UV/Vis and/or GC.
Experience working and communicating cross functionally in a team environment.
Experience with crystal growth and related concepts (e.g. supersaturation, nucleation, etc.).

Top 3 must-have

HARD skills:Experience programming hardware interfaces (e.g., serial/I2C/SPI communication, DAQ systems, motion control) using Python, LabVIEW, C, or similar languages.
2+ years experience in at least one of the following areas: chemistry, materials, organic materials, crystallization, nucleation, solid state analysis, optoelectronic materials.
2+ years experience, experimental laboratory work (i.e., demonstrated ability to take concepts, adapt them and translate them to the bench-top).

Good to have skills:

Working with organic crystals - and solubility of compounds
Previous experience with CAD software is asset
Experience with frequent report writing

PhD or Masters in Physics, Chemistry, Optical Science and Engineering, Electrical Engineering, or relevant technical field

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