Performance-driven solutions for the most demanding laser applications
Precision CO2 Laser Optics: Engineered for High-Power Performance
At Nirvana Optical Solutions (NirOS), we bridge the gap between complex optical engineering and reliable industrial supply. Specialising in high-power CO2 laser optics, we provide the precision components required to maintain peak performance, minimise downtime, and extend the lifecycle of your laser systems.
In an industry where a fraction of a percent in absorption can mean the difference between operational success and catastrophic failure, experience matters.
Beautiful design & robust options
High-Power CO2 Optics Product Range
Focus Lenses
Optimised for high-power industrial cutting and welding, our Zinc Selenide (ZnSe) lenses feature industry-leading AR coatings to ensure maximum transmission and minimal thermal lensing.
Partial & Total Reflectors
From Silicon and Copper mirrors to high-reflectivity Gold and Dielectric coatings, our mirrors are engineered for high damage thresholds and optimal thermal management.
Beam Delivery Components
We provide the essential buildings blocks for laser paths, including; Output Couplers, Phase Retarders, Beam Expanders, Windows (ZnSe, GaAs, and Germanium)
Strategic Infrared Materials
As recognised specialists in the global infrared raw materials supply chain, we ensure that our materials – from ZnSe to exotic IR crystals – are sources and processes to meet the most stringent purity standards.
Beyond CO2: A full-spectrum Optical Partner
While CO2 optics are at our core, Nirvana Optical Solutions provides a gateway to a broader worlds of precision photonics through our exclusive distribution partnerships.
By integrating world-class brands into our portfolio, we offer our clients a "single-source" solution for everything from industrial laser maintenance to cutting-edge R&D.
Telops
World-leading, high-speed infrared cameras for advanced thermography and multispectral imaging.
POG GmbH
High-precision micro-optics and complex optical systems spanning the UV to the near-infrared spectrum.
