Staff Mechanical Engineer, Precision Machine and Optomechanical Design

Foresite Labs (Stealth Co)•San Diego, CA

About The Position

As a Senior Mechanical Engineer, you will own the architecture and implementation of precision mechanical and optomechanical subsystems. You will work closely with optical, electrical, firmware, and systems engineers to translate performance requirements into stable, manufacturable hardware. You are analytical and rigorous, comfortable building and defending error budgets, and equally comfortable in the lab assembling and debugging prototypes. This role is ideal for someone who enjoys precision engineering in real-world systems and wants meaningful technical ownership within a fast-moving startup.

Requirements

B.S. or M.S. in Mechanical Engineering or related field
8–12+ years of experience in precision mechanical and optomechanical system design
Demonstrated experience architecting complex precision systems, not just individual components
Strong foundation in tolerance analysis, error budgeting, and GD&T
Experience developing and defending analytical models for performance prediction
Proficiency in 3D CAD (e.g., SolidWorks)
Significant hands-on experience assembling and troubleshooting precision hardware

Nice To Haves

Experience in bioinstrumentation, medical devices, microscopy, imaging systems, sequencing, or scientific instrumentation
Experience with vibration isolation, thermal compensation strategies, and environmental robustness
Deep familiarity with precision machining processes and vendor capability management
Experience leading cross-functional technical design reviews
Experience mentoring engineers

Responsibilities

Precision Machine & Optomechanical System Design
Develop and own system-level mechanical and optomechanical error budgets (thermal, vibration, alignment, drift, motion accuracy)
Drive tolerance allocation across subsystems in collaboration with optics, electrical, and systems teams
Own the design of optomechanical structures and alignment features with stable, repeatable optical mounting strategies accounting for thermal drift, vibration, and long-term stability
Make principled tradeoffs between performance, cost, manufacturability, and schedule
Analysis & Verification
Analyze stiffness, deflection, modal response, and thermal expansion using analytical methods and FEA
Perform hand calculations and simulations to predict performance
Design validation strategies to verify stability, drift, and repeatability
Lead root-cause investigations when performance gaps emerge
Prototyping & Integration
Lead subsystem bring-up and integration during early builds
Develop alignment procedures and tooling strategies
Maintain a strong hands-on presence in the lab during critical phases
Manufacturing & Documentation
Create detailed drawings with proper GD&T
Drive DFM/DFA for precision assemblies
Collaborate with vendors on machining processes, material selection, and tolerance capability