The Role
Lead non-sequential ray-trace analysis and stray light mitigation for high-energy DUV laser systems using FRED. Model and validate mechanical features (baffles, beam dumps), identify hot spots and fringing, write scripts to automate simulations and data processing, and collaborate with optical, mechanical, and materials teams to meet system-level stray light requirements.
Summary Generated by Built In
Xcimer Energy leverages decades of research on Inertial Fusion Energy (IFE) combined with groundbreaking new laser architecture. Our mission is to deploy fusion power plants to meet global decarbonization goals as fast as possible. Xcimer has assembled a team of leaders in tough tech, fusion science, and manufacturing with a track record of rapid execution. Supported by leading investors, Xcimer is uniquely positioned to deliver limitless, clean, fusion power to combat climate change. Join us in powering a better world with inertial fusion!
This is a full-time, onsite role based at our headquarters in Denver, CO.
As a Senior Stray Light Optical Engineer, you will be the primary technical authority on non-sequential ray tracing and stray light mitigation. Your work will focus on modeling and designing complex optical layouts to identify and mitigate ghosts, hot spots, fringing effects, and other parasitic light paths that could degrade system performance or cause optical damage.
In this highly collaborative role, you will work closely with sequential optical designers, opto-mechanical engineers, material scientists, and optical systems engineers. You will implement mechanical feature models (e.g., baffles, beam dumps) directly into non-sequential software to validate their effectiveness. You will also write custom scripts to automate complex analyses and process large datasets, ensuring our high-energy DUV systems operate safely and efficiently.
Responsibilities
- Perform comprehensive non-sequential ray tracing (primarily using FRED software) to analyze stray light, ghost reflections, scattering, and diffraction in high-energy DUV laser systems.
- Identify and mitigate high-fluence "hot spots" and fringing effects to prevent optical damage and ensure system longevity.
- Implement and evaluate mechanical feature models (such as baffles, apertures, and beam dumps) within non-sequential environments to actively mitigate stray light.
- Write and maintain custom scripts (e.g., Python, MATLAB, or FRED script) to automate ray trace simulations, process large datasets, interface to other analysis tools and quantify system-level signal degradation.
- Collaborate cross-functionally with sequential optical designers to optimize system layouts for stray light performance.
- Work closely with opto-mechanical engineers to design and validate physical stray light mitigation hardware.
- Partner with material scientists to evaluate Bidirectional Scattering Distribution Functions (BSDF/BRDF), surface roughness, and specialized UV-resilient absorptive coatings/materials.
- Collaborate with Optical Systems Engineers to ensure stray light requirements are defined, met, and verified at the system level for ICF applications.
Qualifications
- Education: B.S. or M.S. degree in Optical Engineering, Physics, or a closely related field.
- Experience: 5+ years of dedicated experience in stray light analysis and non-sequential optomechanical modeling.
- Expert-level proficiency in non-sequential optical design software, with a strong preference for FRED.
- Demonstrated experience writing scripts to automate optical analysis and process ray trace data.
- Strong understanding of stray light mitigation techniques, including the implementation of mechanical features (baffles, beam dumps) in optical models.
- Solid foundation in physical optics, scattering (BSDF/BRDF), and diffraction.
- Proven ability to work in a cross-collaborative environment with multi-disciplinary engineering teams.
- Must be a U.S. citizen or national, U.S. permanent resident (current Green Card holder), or lawfully admitted into the U.S. as a refugee or granted asylum.
Desired
- Ph.D. in Optical Engineering, Physics, or related field.
- 8+ years of experience in stray light analysis for high-energy laser systems or deep UV (DUV) applications.
- Experience with Laser Induced Damage Thresholds (LIDT) and material fluorescence in the DUV regime.
- Specific experience working on laser systems for Inertial Confinement Fusion (ICF) or similar high-fluence beam delivery systems.
- Familiarity with stray light measurement instrumentation (e.g., scatterometers) to correlate empirical data with simulation models.
- Experience importing and managing complex CAD geometry within FRED or other non-sequential optical simulation environments.
Equal Employment Opportunity
Xcimer Energy is proud to be an Equal Opportunity/Affirmative Action Employer and is committed to attracting, retaining, and developing a highly qualified, diverse, and dedicated work force. Xcimer Energy hires and promotes people on the basis of their qualifications, performance, and abilities. We support the establishment and maintenance of a workplace that fosters trust, equality, and teamwork, in which all employees recognize and appreciate the diversity of individual team members. We provide all qualified applicants for employment and employees with equal opportunities for hire, promotion, and other terms and conditions of employment, regardless of their race, color, religion, gender, sexual orientation, gender identity, national origin/ethnicity, age, physical or mental disability, genetic factors, military/veteran status, or any other status or characteristic protected by federal, state, and/or local law. Xcimer Energy will consider for employment qualified applicants with criminal histories in a manner consistent with applicable federal, state, and local laws. For more information on “EEO Is the Law,” please see here and here.
Benefits
Xcimer offers a comprehensive benefits package designed to support employee health, well-being, and long-term success. Benefits include medical, dental, and vision coverage; basic and supplemental life insurance; short- and long-term disability; paid parental leave for employees at the time of birth or adoption; and a 401(k) with a company match of up to 6%. Eligible employees also receive equity, allowing them to share in the company’s long-term success.
Xcimer operates under a flexible Paid Time Off (ATO) approach. Rather than a fixed number of vacation days, employees are trusted to take the time they need to rest and recharge while meeting the expectations of their role and team. In addition, employees receive paid sick time, 13 company-paid holidays, and an annual paid company shutdown. Benefits are available to regular employees, including part-time and fixed-term roles, as well as interns, with eligibility varying by benefit.
Skills Required
- B.S. or M.S. in Optical Engineering, Physics, or related field
- 5+ years dedicated experience in stray light analysis and non-sequential optomechanical modeling
- Expert-level proficiency in non-sequential optical design software (strong preference for FRED)
- Experience writing scripts to automate optical analysis and process ray-trace data (Python, MATLAB, or FRED script)
- Strong understanding of stray light mitigation techniques and implementation of mechanical features (baffles, beam dumps, apertures)
- Solid foundation in physical optics, scattering (BSDF/BRDF), and diffraction
- Proven ability to work collaboratively with multi-disciplinary engineering teams
- Must be U.S. citizen, U.S. national, U.S. permanent resident (Green Card), refugee, or granted asylum
- Ph.D. in Optical Engineering, Physics, or related field
- 8+ years experience in stray light analysis for high-energy laser or DUV systems
- Experience with Laser Induced Damage Thresholds (LIDT) and DUV material fluorescence
- Experience with ICF or similar high-fluence beam delivery systems
- Familiarity with stray light measurement instrumentation (e.g., scatterometers)
- Experience importing and managing complex CAD geometry within FRED or other non-sequential tools
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The Company
What We Do
Xcimer Energy is an inertial fusion company developing scalable, laser-driven fusion power systems to provide abundant, clean, and carbon-free energy. By utilizing novel excimer laser architecture to dramatically reduce costs, the company aims to commercialize laser inertial confinement fusion and deploy the world's first commercial laser fusion power plants to meet global decarbonization goals.
