Company OverviewKLA is a global leader in diversified electronics for the semiconductor manufacturing ecosystem. Virtually every electronic device in the world is produced using our technologies. No laptop, smartphone, wearable device, voice-controlled gadget, flexible screen, VR device or smart car would have made it into your hands without us. KLA invents systems and solutions for the manufacturing of wafers and reticles, integrated circuits, packaging, printed circuit boards and flat panel displays. The innovative ideas and devices that are advancing humanity all begin with inspiration, research and development. KLA focuses more than average on innovation and we invest 15% of sales back into R&D. Our expert teams of physicists, engineers, data scientists and problem-solvers work together with the world's leading technology providers to accelerate the delivery of tomorrow's electronic devices. Life here is exciting and our teams thrive on tackling really hard problems. There is never a dull moment with us.
Job Description/Preferred Qualifications
Position Summary
We are seeking a highly motivated Mechanical / Opto-Mechanical Engineer to lead initiatives focused on energy reduction and purge gas optimization across advanced semiconductor equipment platforms.
This role will combine physics-based modeling, optical/mechanical system design, and experimental validation to reduce energy consumption and minimize use of high-cost and high-impact purge gases (e.g., N, CDA, specialty gases).
The ideal candidate will bridge optical systems, fluid dynamics, thermal management, and mechanical design to develop innovative solutions that improve tool efficiency while maintaining or enhancing performance, reliability, and contamination control.
Key Responsibilities
Modeling & Simulation
* Develop multi-physics models (CFD, thermal, optical path interactions) to analyze:
* Gas flow behavior and purge efficiency
* Heat transfer and thermal stability
* Optical contamination and environmental sensitivity
* Simulate purge gas distribution and consumption to identify reduction opportunities
* Perform trade-off analyses between purge reduction, optical performance, and system reliability
Design & Engineering
* Design and optimize opto-mechanical assemblies with reduced reliance on purge gases
* Improve sealing strategies, enclosure designs, and flow paths to minimize gas usage
* Collaborate with optics, systems, and process engineers to ensure performance integrity
* Implement energy-efficient architectures (reduced heat loads, optimized airflow, passive solutions)
Testing & Validation
* Develop and execute test plans to validate modeling predictions
* Instrument systems to measure:
* Gas flow rates and distribution
* Temperature gradients
* Optical performance under reduced purge conditions
* Correlate experimental data with simulation models and refine designs accordingly
Sustainability & Cost Reduction
* Drive initiatives to reduce:
* Purge gas consumption (N, CDA, specialty gases)
* Overall tool energy usage
* Quantify cost savings and environmental impact reductions
* Support compliance with internal sustainability goals and external regulations
Cross-Functional Collaboration
* Partner with:
* Optical engineering
* Mechanical design
* Process engineering
* Product safety & environmental compliance teams
* Contribute to system-level architecture decisions for next-generation tools
Required Qualifications
Degree in
* Mechanical Engineering
* Optical Engineering
* Physics or related field
* 5+ years of experience in:
* Mechanical or Opto-mechanical system design
* Strong experience with:
* CFD and thermal modeling tools (e.g., ANSYS Fluent, COMSOL)
* Mechanical design (CAD) and tolerance analysis
* Understanding of:
* Gas flow dynamics and contamination control
* Optical system sensitivity to environment (temperature, vibration, contamination)
Preferred Qualifications
Experience with purge gas systems in semiconductor tools
* Knowledge of cleanroom and vacuum environments
* Familiarity with:
* Sustainability and energy efficiency metrics
* Experience integrating modeling with experimental validation
* Background in thermal management of precision optical systemsExperience with purge gas systems in semiconductor tools
* Knowledge of cleanroom and vacuum environments
*
Minimum Qualifications
Doctorate (Academic) Degree and 0 years related work experience; Master's Level Degree and related work experience of 3 years; Bachelor's Level Degree and related work experience of 5 years
Base Pay Range: $97,000.00 - $164,900.00 Annually
Primary Location: USA-MI-Ann Arbor-KLA
KLA's total rewards package for employees may also include participation in performance incentive programs and eligibility for additional benefits including but not limited to: medical, dental, vision, life, and other voluntary benefits, 401(K) including company matching, employee stock purchase program (ESPP), student debt assistance, tuition reimbursement program, development and career growth opportunities and programs, financial planning benefits, wellness benefits including an employee assistance program (EAP), paid time off and paid company holidays, and family care and bonding leave.
Interns are eligible for some of the benefits listed. Our pay ranges are determined by role, level, and location. The range displayed reflects the pay for this position in the primary location identified in this posting. Actual pay depends on several factors, including state minimum pay wage rates, location, job-related skills,... For full info follow application link.
KLA-Tencor is an Equal Opportunity Employer. Applicants will be considered for employment without regard to age, race, color, religion, sex, sexual orientation, gender identity, national origin, protected veteran status, disability, or any other characteristics protected by applicable law.
