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Staff Laser Process Engineer
Emeryville, California
Atomic Machines is ushering in a new era of micromanufacturing with its Matter Compiler™ technology platform. This platform enables new classes of micromachines to be designed and built by providing manufacturing processes and a materials library that are inaccessible to semiconductor manufacturing methods. It unlocks MEMS manufacturing not only for device classes that could never be produced by semiconductor methods, but also for entirely new categories. Furthermore, this digital platform is fully programmable in the way 3D printing is digital—but whereas 3D printing produces parts of a single material using a single process, the Matter Compiler™ technology platform is a multi-process, multi-material system: bits and raw materials go in, and complete, functional micromachines come out. The Atomic Machines team has also created an exciting first device—made possible only through the Matter Compiler™ technology platform—that we will be unveiling to the world soon.
Our offices are in Emeryville and Santa Clara, California.
About The Role:
We are seeking a technical leader to shape the future of our laser-based manufacturing processes, from development to scaled production. This role bridges advanced micromachining, materials physics, and optical systems, operating at the nexus of hardware, software, device design, and process. In this capacity, you will lead laser process development and optimization efforts to deliver rapid and precise operations, including cutting, milling, selective ablation, and welding using a suite of in-house-built pulsed-laser machines. You will champion innovative metrology methods to analyze laser–material interactions, including in situ probes, feeding AI-enabled learning and process optimization. Additionally, this role involves solving complex tool path optimization problems leveraging both commercial and custom CAD and CAM software packages. The ideal candidate is capable of carrying a laser processing technology through its entire life cycle—from first principles to experimentation and prototyping, and finally translating it to our digital, autonomous manufacturing platform at scale.
What You’ll Do:
- Lead the development, optimization, and scaling of pulsed-laser manufacturing processes, including cutting, milling, selective ablation, and welding.
- Design, implement, and analyze experiments to understand laser–material interactions across metals, ceramics, and polymers, and document and standardize processes to ensure reproducibility and support scale-up.
- Develop and refine tool paths and machine programs using CAD/CAM software and G-code to maximize precision and efficiency.
- Apply advanced metrology and materials characterization techniques to evaluate process outcomes and guide improvements.
- Work with laser system design engineers to translate process learnings into system usability, performance, and feature development.
- Partner with Design, AI, Hardware/Software, and Manufacturing teams while mentoring engineers and technicians to champion best practices and drive process quality and efficiency.
- Ensure safe operation of high-power laser systems, adhering to industry standards and internal safety protocols.
What You’ll Need:
- A master’s degree in Mechanical Engineering, Optical Engineering, Applied Physics, Materials, or a related field, and 10+ years of industry experience.
- Exceptional foundational knowledge of pulsed-laser physics (e.g., pulse duration, beam profile control), heat transfer, and materials science.
- Hands-on experience operating and troubleshooting pulsed-laser processing equipment and material responses, including nanosecond and femtosecond laser systems.
- Proficiency in CAD/CAM and machine tool programming, including G-code, for laser machining.
- Proficiency in design of experiments (DOE) and statistical process control (SPC), with fluency in tools like JMP, Minitab, SAS, or Python-based analytics.
- Experience with metrology tools, including optical imaging and profilometry, CMM, SEM/EDS/EBSD, XRF, X-ray CT, and IR imaging and spectroscopy.
- Exceptional communication and leadership skills, with a passion for mentorship, team building, and organizational scaling.
- Familiarity with AI/ML-enabled manufacturing and comfort collaborating with AI and software development teams is a plus.
The compensation for this position also includes equity and benefits.
Salary Range
$185,000 - $220,000 USD
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