Sub-micron optomechanical manufacturing
We translate complex optical designs and budgets into rugged physical hardware. Engineered for extreme thermal stability and zero-drift alignment in aerospace and medical systems.
Guaranteed structural stability
Our components are engineered to mitigate thermal drift and vibrational stress, ensuring optical alignment remains absolute under extreme operating conditions.
Sub-micron precision
Zero-drift engineering
Optical-grade finish
We machine mounting datums to tolerances under one micron, ensuring absolute optical center alignment across complex multi-lens assemblies.
Finite element analysis optimized structures utilizing low thermal expansion alloys to eliminate alignment drift during severe thermal cycling and environmental performance
Specialized black anodizing and surface treatments designed to eliminate stray light reflections and outgassing in vacuum environments.
Precision optomechanical hardware
We specialize in translating complex optical system requirements into rugged, high-consequence physical components machined from stabilized alloys.
Custom lens cells
We manufacture multi-element lens barrels and custom cells with precise axial spacing. Every thread and seat is verified via interferometric testing to eliminate wavefront distortion.
Kinematic mirror mounts
Designed for high-vibration aerospace environments, our mounts feature high structural rigidity and lockable adjustments to maintain sub-micron pointing stability.
Initiate technical review
Submit your STEP files and optical budgets directly to our engineering team. We identify mechanical stress points and thermal constraints before cutting metal.
Vibace, LLC
Sub-micron optomechanical manufacturing for high-consequence systems.
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bchanapan@vibace.com
Submit STEP files & optical budgets
ITAR Registered & Compliant
(C) 2026 Vibace-Certified clean-room assembly. ISO 9001 compliant.
Sub-micron optomechanical alignment