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Semiconductor Characterization Jobs (NOW HIRING)

Experience in epitaxy (SiC preferred) and/or semiconductor characterization * Background in process engineering, data analysis, and process improvement Technical Skills * Experience with Statistical ...

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Several years of experience in semiconductor device testing, characterization, manufacturing, or related engineering environments. * Strong troubleshooting and root cause analysis skills with a ...

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Semiconductor Characterization information

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How much do semiconductor characterization jobs pay per year?

As of Jul 13, 2026, the average yearly pay for semiconductor characterization in the United States is $89,369.00, according to ZipRecruiter salary data. Most workers in this role earn between $58,500.00 and $114,500.00 per year, depending on experience, location, and employer.

What are the typical daily tasks of someone working in Semiconductor Characterization?

In a Semiconductor Characterization role, your daily tasks often include preparing test setups, performing electrical and physical measurements on semiconductor devices, and analyzing the resulting data to assess performance or reliability. You'll collaborate closely with design engineers and process technologists to interpret test results and troubleshoot any anomalies. Documentation of procedures, maintaining test equipment, and sometimes developing automated test routines are also common responsibilities. This role typically involves both hands-on lab work and detailed data analysis to support ongoing product development and improvement.

What are the career opportunities in the semiconductor industry?

Career opportunities in semiconductor characterization include roles such as process engineers, test engineers, failure analysis specialists, and research scientists. These positions often require knowledge of materials science, electrical engineering, and proficiency with testing tools and equipment. Opportunities exist in manufacturing, research and development, quality assurance, and technical support within the industry.

What is a Semiconductor Characterization job?

A Semiconductor Characterization job involves testing and analyzing the electrical, optical, and material properties of semiconductor devices to ensure performance and reliability. Professionals in this role use advanced lab equipment such as probe stations, parameter analyzers, and oscilloscopes to measure key characteristics like mobility, carrier concentration, and defect density. Their work is crucial for optimizing fabrication processes, validating device designs, and troubleshooting issues in semiconductor manufacturing.

What is characterization in semiconductor industry?

In the semiconductor industry, characterization involves testing and analyzing semiconductor devices and materials to measure their electrical, optical, and physical properties. Semiconductor characterization engineers use specialized tools and techniques to ensure devices meet performance specifications and quality standards, often working in cleanroom environments and utilizing equipment like oscilloscopes, network analyzers, and probe stations.

How much do semiconductor jobs pay?

Semiconductor characterization jobs typically offer salaries ranging from $60,000 to $100,000 annually, depending on experience, education, and location. Entry-level positions may start lower, while experienced professionals with specialized skills or certifications can earn higher wages. Compensation often includes benefits such as health insurance and opportunities for career advancement in a high-tech environment.

What is the highest paying job in the semiconductor industry?

In the semiconductor industry, senior executive roles such as Vice President of Engineering or Chief Technology Officer typically have the highest salaries. These positions require extensive experience, leadership skills, and often advanced degrees, and they oversee strategic development and large teams within semiconductor companies.

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

To thrive in Semiconductor Characterization, you need a strong background in materials science, electrical engineering, or physics, along with experience in device testing and data analysis. Proficiency with tools such as semiconductor parameter analyzers, probing stations, and characterization software like LabVIEW or MATLAB is highly valued. Attention to detail, problem-solving abilities, and effective communication are important soft skills for collaborating with cross-functional engineering teams. These competencies are crucial to ensure accurate device evaluation, efficient troubleshooting, and the reliable reporting of test results in semiconductor development environments.

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Infographic showing various Semiconductor Characterization job openings in the United States as of July 2026, with employment types broken down into 97% Full Time, 1% Part Time, and 2% Contract. Highlights an 94% Physical, 2% Hybrid, and 4% Remote job distribution, with an average salary of $89,369 per year, or $43 per hour.
Senior Laser & SOA Characterization Engineer

Senior Laser & SOA Characterization Engineer

Lightmatter

Mountain View, CA

$130K - $174K/yr

Other

Posted 10 days ago


Job description

About this Role

We are hiring a senior engineer for our Photonics Characterization team at Lightmatter. Lightmatter is redefining computing by building photonic systems that use light to enable high-bandwidth, energy-efficient AI computing.

In this role, you will lead advanced characterization, bring-up, validation, and root-cause analysis of semiconductor lasers, tunable laser sources, DFB lasers, external-cavity lasers, laser diodes, and semiconductor optical amplifiers. This role requires strong hands-on lab expertise, deep understanding of laser physics and semiconductor device behavior, and the ability to connect measured device performance to design, packaging, system, and reliability implications.

You will own complex optical and electro-optical test setups, develop robust measurement methodologies, automate characterization flows, analyze large datasets, and translate results into clear engineering conclusions. You will also work closely with laser design, photonics, packaging, systems, reliability, and software teams to guide device development from early engineering samples through production-oriented validation.

Responsibilities
  • Lead hands-on characterization of semiconductor lasers, tunable laser sources, DFB lasers, DBR/ECL lasers, laser diodes, and semiconductor optical amplifiers.
  • Measure and analyze key laser and SOA performance metrics, including output power, wavelength, optical spectrum, SMSR, RIN, linewidth, gain, saturation power, ASE, noise figure, tuning behavior, optical stability, wavelength stability, and thermal sensitivity.
  • Develop advanced LIV, L-I-V-T, wavelength tuning, power stability, RIN, SMSR, linewidth, and long-term drift measurement methodologies.
  • Characterize devices across current, voltage, temperature, optical loading, polarization, optical feedback, aging, and operating conditions.
  • Analyze SOA gain, gain saturation, wavelength-dependent gain, polarization-dependent gain, ASE noise, carrier dynamics, thermal behavior, and nonlinear effects.
  • Build, validate, and maintain automated optical and RF measurement setups using Python, PyVISA, LabVIEW, MATLAB, or similar tools.
  • Use modeling and design-analysis software to support characterization planning and data interpretation, including tools for laser physics, optical gain, rate-equation analysis, thermal modeling, optical spectrum analysis, and system-level performance estimation.
  • Develop scripts and software workflows for instrument control, automated data collection, calibration, data processing, visualization, statistical analysis, and automated reporting.
  • Debug complex optical, electrical, RF, and thermal measurement issues, including optical coupling, polarization sensitivity, back-reflection, RF noise, grounding, calibration error, thermal drift, and instrument limitations.
  • Define measurement best practices, calibration procedures, data quality checks, and test documentation standards.
  • Translate characterization results into actionable feedback for laser design, photonics integration, packaging, system architecture, and reliability teams.
  • Support device bring-up from early engineering samples through mature validation and production-readiness phases.
  • Mentor junior engineers and help establish high-quality characterization practices across the team.
  • Prepare clear technical reports, design reviews, data summaries, and recommendations for cross-functional engineering teams.
Qualifications
  • PhD or Master's degree in Electrical Engineering, Physics, Applied Physics, Photonics, Optics, or a related technical field.
  • 5+ years of hands-on experience in semiconductor laser, SOA, photonics, or optical device characterization.
  • Strong understanding of semiconductor laser physics, optical gain, carrier dynamics, rate equations, thermal effects, feedback sensitivity, linewidth, RIN, and optical noise mechanisms.
  • Deep hands-on experience with optical and electro-optical lab measurements.
  • Strong familiarity with laser characterization metrics such as threshold current, slope efficiency, wall-plug efficiency, LIV curves, SMSR, RIN, linewidth, wavelength tuning, optical spectrum, power stability, and wavelength stability.
  • Strong understanding of semiconductor optical amplifiers, including gain, saturation behavior, ASE, noise, carrier dynamics, polarization dependence, wavelength dependence, and thermal effects.
  • Experience operating optical and RF instruments, including laser current drivers, TEC controllers, OSAs, optical power meters, photodetectors, RF spectrum analyzers, oscilloscopes, bias tees, optical filters, polarization controllers, optical switches, and fiber-coupled components.
  • Strong Python programming experience for instrument automation, data analysis, plotting, statistical analysis, and automated reporting.
  • Experience using software tools for device design support, modeling, simulation, or data-driven analysis.
  • Strong analytical skills and ability to debug open-ended device, setup, and measurement problems independently.
  • Ability to communicate complex technical results clearly and drive conclusions across design, characterization, packaging, and systems teams.
Preferred Qualifications
  • PhD in Electrical Engineering, Physics, Applied Physics, Photonics, Optics, or a related field.
  • Prior experience characterizing DFB lasers, DBR lasers, tunable lasers, ECLs, laser diodes, or SOAs for integrated photonics or optical communication systems.
  • Experience with advanced laser-noise measurements, including RIN, linewidth, phase noise, frequency noise, optical feedback sensitivity, and relaxation oscillation analysis.
  • Familiarity with laser and SOA modeling, including rate-equation modeling, gain modeling, thermal modeling, optical feedback analysis, and wavelength tuning behavior.
  • Experience using commercial or internal simulation/design tools for photonic device analysis, laser design support, or system-level optical performance modeling.
  • Experience with III-V semiconductor materials, heterogeneous integration, laser packaging, fiber coupling, optical isolators, and thermal control.
  • Experience with high-speed optical or RF measurements involving fast photodetectors, RF spectrum analyzers, oscilloscopes, LNAs, bias tees, and calibration/de-embedding.
  • Experience developing automated test platforms for device characterization and validation.
  • Experience analyzing large characterization datasets and creating automated dashboards or reports.
  • Experience supporting reliability, qualification, or production-oriented validation of semiconductor lasers or optical amplifiers.
  • Demonstrated ability to lead technical work independently, define test strategy, mentor junior engineers, and influence cross-functional engineering decisions.