Ultra-high precision femtosecond laser micromachining workstations for industry and science needs.
Tailor-made for your specific application.
Glass & sapphire cutting and dicing workstation for industry, that outperforms other glass cutting methods.
Laser micromachining workstation optimized for fiber Bragg gratings (FBG) writing.
All-in-one R&D platform for femtosecond laser micromachining.
Laser micromachining workstation optimized for multiphoton polymerization (MPP) technology.
Highly reliable, ultra-high precision industrial femtosecond laser micromachining workstation.
Solution for scientific and industrial customers, who already have a laser source.
Custom-build laser workstation for laboratories and R&D centers.
Patented Technology for Cutting Glass and Sapphire.
For the glass becoming a demanding material, Workshop of Photonics has developed a unique state of the art glass and sapphire cutting technology to overcome challenges arising from new materials and customers’ requirements.
It offers ultra-high precision and quality on tempered, non-tempered glasses and sapphire, small feature sizes, and high aspect ratios unachievable with alternative technologies.
Our space-variant retarders are exceptional for ultra-high damage threshold, suitable even for high power lasers.
Converts linear polarization to radial or azimuthal polarization and circular polarization to an optical vortex
Converts linear polarization to higher-order polarization patterns.
Transforms Gaussian beam into a Bessel-Gauss beam
Acts as a space-variant transmission filter and transforms Gaussian beam to a flat-top beam.
Custom Space-variant retarders adapted to the specific end-user needs.
Compensates depolarization in the gain medium.
