Laser Field Service Engineer- Boston, MA/NH
AlconSalary not specified
Full Time
Mid-level (3 to 4 years), Senior (5 to 8 years)
Not SpecifiedCompensation
Senior (5 to 8 years), Expert & Leadership (9+ years)Experience Level
Full TimeJob Type
UnknownVisa
Micromanufacturing, MEMS, SemiconductorIndustries
Requirements
- 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
Responsibilities
- 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
Skills
laser processing
micromachining
materials physics
optical systems
pulsed-laser machines
cutting
milling
selective ablation
welding
metrology
in situ probes
AI-enabled learning
tool path optimization
CAD
CAM
Atomic Machines
Develops machines for atomically precise manufacturing
About Atomic Machines
Atomic Machines develops machines for atomically precise manufacturing (APM), which allows for the creation of physical objects directly from digital designs. Their technology focuses on microfabrication, particularly in producing Micro-Electro-Mechanical Systems (MEMS), which are small devices that combine mechanical and electronic components. Unlike traditional methods that rely on silicon, Atomic Machines offers a more efficient approach to MEMS fabrication. They cater to various industries, including semiconductor, automotive, healthcare, and consumer electronics, providing advanced fabrication solutions that enhance precision, efficiency, and scalability. The company differentiates itself by focusing on APM, aiming to set new standards in manufacturing technology. Their goal is to transform the manufacturing landscape by merging digital and physical production processes.
Berkeley, CaliforniaHeadquarters
2019Year Founded
SEEDCompany Stage
Industrial & Manufacturing, HealthcareIndustries
51-200Employees
Benefits
Professional Development Budget
Risks
Emerging competition from companies like Zyvex Labs in atomically precise manufacturing.
Potential intellectual property disputes as more companies enter the APM space.
Economic downturns could reduce demand for MEMS in key sectors.
Differentiation
Atomic Machines focuses on atomically precise manufacturing, a novel approach in microfabrication.
The company targets diverse industries, including automotive, healthcare, and consumer electronics.
Their innovative MEMS technology offers higher precision and efficiency than traditional methods.
Upsides
Growing demand for MEMS in smart medical devices presents a significant market opportunity.
Advancements in nanomaterials could enhance Atomic Machines' manufacturing capabilities.
The shift to electric vehicles increases the need for advanced MEMS sensors.
Related Jobs
RemoteRemoteSenior Software Engineer - Processing
Lithic$145,000 - $195,000/year
- Full Time
- Senior (5 to 8 years), Expert & Leadership (9+ years)
RemoteSenior Manufacturing Test Engineer
NVIDIASalary not specified
- Full Time
- Senior (5 to 8 years)
RemoteAdvanced Manufacturing Engineering Leader
AllegionSalary not specified
- Full Time
- Expert & Leadership (9+ years)