Diode Laser Collimation
Ensuring Maximum Diode Laser Performance
FISBA delivers precision laser collimator lenses to maximize diode laser performance across industrial, LiDAR, and solid-state laser applications. Our Fast Axis Collimator (FAC) and Slow Axis Collimator (SAC) lenses provide high-quality collimation, reduce beam divergence, and ensure consistent system efficiency, making them ideal for demanding markets worldwide. With over 20 years of expertise in diode laser collimation, we have established automated in-house processes that ensure competitive pricing, even for high volumes
Collimated Light for Maximum Performance
In diode laser applications, precisely collimated light is essential to fully exploit the laser’s potential. Whether coupling into fibers, pumping solid-state lasers, or direct material processing, FISBA’s FAC and SAC lenses ensure optimal beam quality and efficiency, enabling users to get the most out of their laser diodes.
Engineered for Demanding Markets
The diode laser collimation market is highly competitive, but small performance details make a major difference. Our FAC lenses reduce residual divergence and minimize side lobes, directly improving beam quality, system efficiency, and overall laser performance. Automated production and strict quality control ensure long component lifetimes and reliability, especially for blue-wavelength applications.
Your Advantages with FISBA FACs & SACs
- High-end collimation for demanding diode laser packages
- Wide portfolio of standardized solutions, plus proven expertise in custom designs
- Low-absorption D-shaped lenses — optimal for blue diodes
- Optimized for automated integration — saves time and reduces errors
- Reliable availability and fast ramp-up
- Swiss precision, globally accessible
Search and Find Your Right FAC
With over 180 standard FAC variants we offer a broad, ready-to-use portfolio.
Find the right product for your application in our FAC Selector. You can specify from Multiple focal lengths (EFL), Wavelenght range, Numerical Aperture (NA) and Length.
