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Lumerical Jobs (NOW HIRING)

Perform optical and electrical modeling using tools such as Lumerical, COMSOL, FDTD, and Matlab/Python codes. * Drive process integration efforts including mask design, fabrication flow development ...

Senior Photonics Engineer

Ann Arbor, MI · On-site

$102K - $140K/yr

... using Lumerical MODE, FDTD, INTERCONNECT, HEAT/DEVICE, and GDSFactory. Conduct thermo-optic and electro-optic analysis and verification. • Tapeout & Fabrication Drive tapeout processes with ...

Senior High-Speed Photonics Engineer

Palo Alto, CA · On-site

$122K - $168K/yr

Knowledge in modeling of photonic circuits (e.g using Lumerical Interconnect or SAX) is a plus. * Knowledge RF concepts, signal integrity and experience with simulation tools such as HFSS and ADS is ...

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Lumerical information

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

To thrive as a Lumerical Engineer, you need a solid background in photonics, optics, and computational physics, usually supported by a degree in electrical engineering or a related field. Expertise in using Lumerical software for photonic device simulation, along with familiarity with CAD tools and programming languages like Python or MATLAB, is highly valuable. Strong problem-solving, analytical thinking, and communication skills help in designing innovative solutions and collaborating with multidisciplinary teams. Mastery of these skills ensures accurate simulations, efficient workflow, and successful development of advanced photonic technologies.

What is the difference between Lumerical vs Photonics Engineer?

AspectLumericalPhotonics Engineer
Required CredentialsKnowledge of photonics simulation software, engineering degreeDegree in optical, electrical, or photonics engineering; often familiar with simulation tools
Work EnvironmentResearch labs, R&D departments, simulation-focused rolesDesign, develop, and test photonic devices in industry or research settings
Industry UsageUsed by engineers for simulation and modelingProfessionals applying photonics principles in product development

While Lumerical refers to a software suite used by photonics professionals, a Photonics Engineer is a role that often requires proficiency with such tools. Both roles overlap in skills and industry, but Lumerical is a software product, whereas Photonics Engineer is a job title focused on applying photonics knowledge in practical projects.

What are Lumerical engineers?

Lumerical engineers are professionals who use Lumerical software tools to design, simulate, and analyze photonic devices and systems. They work primarily in the field of photonics and optoelectronics, leveraging Lumerical’s simulation tools for applications such as integrated optics, fiber optics, and nanophotonics. These engineers often collaborate with research and development teams to create high-performance optical components used in telecommunications, data centers, and other advanced technologies.

What types of projects do Lumerical engineers typically work on, and how does the team collaborate to deliver solutions?

Lumerical engineers are often involved in designing, simulating, and optimizing photonic devices and systems for applications like optical communications, sensing, or integrated photonics. Projects may range from developing new simulation features to supporting customer-specific workflows. Collaboration is key—engineers regularly work in cross-functional teams with software developers, product managers, and application specialists, using agile methodologies and frequent communication to deliver high-quality solutions. This team structure fosters knowledge sharing and offers opportunities to learn from experts across domains.
More about Lumerical jobs
What cities are hiring for Lumerical jobs? Cities with the most Lumerical job openings:
What states have the most Lumerical jobs? States with the most job openings for Lumerical jobs include:
Infographic showing various Lumerical job openings in the United States as of July 2026, with employment types broken down into 98% Full Time, 1% Part Time, and 1% Temporary. Highlights an 93% Physical, 5% Hybrid, and 2% Remote job distribution.
Optical Engineer III - Design Analysis (PIC)

Optical Engineer III - Design Analysis (PIC)

SPECTRAFORCE TECHNOLOGIES Inc.

Redmond, WA • On-site

Other

Posted 2 days ago


Job description

Job Title: Optical Engineer III - Design Analysis
Duration: 24 Months
Location: Onsite in Redmond /WA
 
Job Description:
Optical Engineer, Photonic Integrated Circuit (PIC) Design & Analysis

  • We are seeking a passionate Optical Engineer to join our research and development team. This role focuses on delivering state-of-the-art near-to-eye display system technologies. The ideal candidate will have expertise in novel integrated photonics device design and metrology, gained through a Ph.D. or industry experience.
  • Responsibilities
  • Design and develop complete Photonic Integrated Circuits (PICs), from fundamental component blocks to full-circuit implementations, with a strong emphasis on active device integration.
  • Generate, verify, and prepare fabrication-ready layout files, ensuring compliance with foundry Process Design Kits (PDKs) for external fabrication.
  • Conduct systematic design analysis, including optimization and parametric studies, to guide design decisions.
  • Support the entire design-to-fabrication pipeline, from initial concept through tapeout, coordinating closely with cross-functional teams and external partners.
  • Collaborate with program leadership, Technical Program Managers (TPMs), and researchers on PIC designs that align with overall program objectives.

Must-Have Skills:

  1. PIC Design & Simulation: 3+ years designing, simulating, and laying out photonic integrated circuits (PICs) for visible/IR wavelengths.
  2. Photonic Modeling Tools: Proficiency with tools like Lumerical, Ansys Photonics, Synopsys RSoft, or COMSOL for device/circuit analysis.
  3. PIC Layout & Tapeout: Experience with layout tools (KLayout, Cadence Virtuoso, gdsfactory), GDSII generation, and supporting tapeouts at commercial foundries.

Nice-to-Have Skills:

  1. Active PIC Design & Validation: Experience in active PIC design, fabrication, and validation, especially for visible wavelengths.
  2. Device Characterization: Skills in optical/electro-optic measurements, fiber optics, free-space optics, and PIC packaging.
  3. Statistical Modeling & Sensitivity Analysis: Experience in design space exploration, yield modeling, and incorporating fabrication constraints.

Minimum Qualifications:

  • MS or Ph.D. degree in Electrical Engineering, Optical Sciences, Physics, or a closely related field.
  • 3+ years of hands-on experience in the design, simulation, and layout of PICs for visible or IR wavelengths on platforms such as Si, SiN, LiNbO, or BTO.
  • 3+ years of experience utilizing photonic device simulation and electromagnetic modeling tools for both component and circuit-level analysis (e.g., Lumerical FDTD/MODE/DEVICE, Ansys Photonics, Synopsys RSoft, or COMSOL Multiphysics).
  • 2+ years of experience with PIC layout tools and GDSII generation (e.g., KLayout, Cadence Virtuoso, gdsfactory, or equivalent), including familiarity with foundry PDK integration and design rule verification.
  • 2+ years of experience with scientific programming (e.g., Python or MATLAB) for scripting, design automation, and analysis.
  • 1+ years of experience supporting or executing PIC tapeouts at a commercial semiconductor foundry, including an understanding of fabrication process constraints (e.g., propagation losses, sidewall roughness, etch non-idealities).

 
Preferred Qualifications:

  • 3+ years experience in active PIC design, fabrication, and validation, particularly for visible wavelengths on LiNbO or BTO platforms.
  • 3+ years of experience in design space exploration, sensitivity analysis, and statistical performance/yield modeling for photonic circuits.
  • 3+ years of experience with one or more major photonic simulation tool suites (e.g., Lumerical, Synopsys, COMSOL, or equivalent).
  • 2+ years of experience utilizing photonic circuit-level simulation tools (e.g., Lumerical Interconnect, Synopsys OptSim, or VPIphotonics) for system-level performance evaluation.
  • 2+ years of experience in photonic device characterization and test, including both optical and electro-optic measurements.
  • 1+ years experience with fiber optics, free-space optics, PIC packaging, and comprehensive device characterization.
  • 1+ years experience with semiconductor fabrication processes and a deep understanding of process-induced performance limitations, such as optical losses, sidewall roughness, and process variability.
  • Demonstrated ability to directly incorporate fabrication constraints into PIC designs (e.g., optimizing minimum feature sizes and bend radii, implementing effective tapering strategies, and using layout techniques to mitigate scattering and coupling losses).

 
Minimum Years of Experience: 5-7
 
Degrees/Certifications:

  • Required : MS or Ph.D. degree ( preferred ) in Electrical Engineering, Optical Sciences, Physics, or a closely related field.

 
Key Projects/Day-to-Day Responsibilities:

  • Design, simulate, and optimize PICs and photonic devices.
  • Prepare fabrication-ready layouts and ensure compliance with foundry PDKs.
  • Analyze and improve designs through parametric studies.
  • Coordinate the design-to-fabrication pipeline with cross-functional teams and external partners. Collaborate with leadership and researchers to align designs with program goals.

 
Purpose/Size of this team & where does this position fit within the team?

  • Key technical contributor in the R&D team, collaborating with leadership, TPMs, and researchers. Drives PIC design and fabrication efforts, bridging technical and program objectives.

 
Certain project that team is working on / what products are they supporting:

  • Developing advanced photonic integrated circuits for next-gen near-to-eye display systems. Integrating active devices and optimizing for fabrication constraints. Improving system-level performance and yield through design analysis and modeling.

 
About the Team:

  • R&D team focused on cutting-edge near-to-eye display systems. Multidisciplinary collaboration with engineers, researchers, and program managers. Drives innovation in integrated photonics and display technology.