Knowledge

Custom AR (Anti-reflection) Coating Services for Laser Crystals

Custom AR (Anti-reflection) Coating Services fo...

We provide custom anti-reflection (AR) and high-reflection (HR) coating services for laser crystals and optical components, including Nd:YAG, Cr:YAG, Ti:Sapphire, BBO, LBO, sapphire, and other precision optics for research and...

Custom AR (Anti-reflection) Coating Services fo...

We provide custom anti-reflection (AR) and high-reflection (HR) coating services for laser crystals and optical components, including Nd:YAG, Cr:YAG, Ti:Sapphire, BBO, LBO, sapphire, and other precision optics for research and...

Polyester (Mylar) Photomask Guide: Rapid, Cos...

Mylar (polyester) photomasks offer a fast and cost-effective solution for PCB, MEMS, and microfabrication prototyping. Ideal for rapid design iterations.

Polyester (Mylar) Photomask Guide: Rapid, Cos...

Mylar (polyester) photomasks offer a fast and cost-effective solution for PCB, MEMS, and microfabrication prototyping. Ideal for rapid design iterations.

Custom Sapphire Window for Vacuum & Optical Sys...

Custom sapphire windows for high-vacuum chambers, optical systems, and high-temperature reactors. UV–IR transparent, precision polished, flange-compatible, and prototype-friendly for university and startup R&D projects.

Custom Sapphire Window for Vacuum & Optical Sys...

Custom sapphire windows for high-vacuum chambers, optical systems, and high-temperature reactors. UV–IR transparent, precision polished, flange-compatible, and prototype-friendly for university and startup R&D projects.

Custom Sapphire Tube for R&D & Furnaces | Resea...

Custom sapphire tubes engineered for high-temperature furnaces, CVD systems, and advanced research laboratories. Supporting diameters up to 150 mm with 3–4 week lead times, low MOQ, and research-grade precision for...

Custom Sapphire Tube for R&D & Furnaces | Resea...

Custom sapphire tubes engineered for high-temperature furnaces, CVD systems, and advanced research laboratories. Supporting diameters up to 150 mm with 3–4 week lead times, low MOQ, and research-grade precision for...

LaBr₃–SiPM Gamma-Ray Detector: 1D Array with 3.1% Energy Resolution

LaBr₃–SiPM Gamma-Ray Detector: 1D Array with 3....

A LaBr₃:Ce gamma-ray detector coupled with SiPM readout and implemented as a one-dimensional array demonstrates an average energy resolution of 3.1% FWHM at 662 keV, enabling compact, PMT-free high-resolution gamma...

LaBr₃–SiPM Gamma-Ray Detector: 1D Array with 3....

A LaBr₃:Ce gamma-ray detector coupled with SiPM readout and implemented as a one-dimensional array demonstrates an average energy resolution of 3.1% FWHM at 662 keV, enabling compact, PMT-free high-resolution gamma...

CLYC Detector Design Considerations

This article discusses key detector design considerations for CLYC scintillators, focusing on pulse shape discrimination (PSD), photosensor selection, electronics, optical coupling, and application-driven neutron–gamma detection trade-offs.

CLYC Detector Design Considerations

This article discusses key detector design considerations for CLYC scintillators, focusing on pulse shape discrimination (PSD), photosensor selection, electronics, optical coupling, and application-driven neutron–gamma detection trade-offs.