Knowledge

CLLB Scintillator Detectors for Neutron–Gamma PSD

This article outlines key detector design considerations for CLLB scintillators, focusing on pulse shape discrimination (PSD), photosensor selection, electronics, optical coupling, and system-level trade-offs for neutron–gamma detection.  

CLLB Scintillator Detectors for Neutron–Gamma PSD

This article outlines key detector design considerations for CLLB scintillators, focusing on pulse shape discrimination (PSD), photosensor selection, electronics, optical coupling, and system-level trade-offs for neutron–gamma detection.  

Pulse Shape Discrimination (PSD) in Neutron–Gam...

Pulse shape discrimination (PSD) enables neutron–gamma separation in lithium-based scintillators by exploiting differences in scintillation decay profiles. This article provides a technical comparison of CLLB and CLYC crystals, focusing on...

Pulse Shape Discrimination (PSD) in Neutron–Gam...

Pulse shape discrimination (PSD) enables neutron–gamma separation in lithium-based scintillators by exploiting differences in scintillation decay profiles. This article provides a technical comparison of CLLB and CLYC crystals, focusing on...

CLLB vs CLYC: Key Differences in Pulse Shape Di...

CLLB and CLYC are two leading elpasolite scintillators for combined neutron and gamma detection. This article compares their pulse shape discrimination (PSD) mechanisms, figure of merit (FOM), and practical performance...

CLLB vs CLYC: Key Differences in Pulse Shape Di...

CLLB and CLYC are two leading elpasolite scintillators for combined neutron and gamma detection. This article compares their pulse shape discrimination (PSD) mechanisms, figure of merit (FOM), and practical performance...

Single-Crystal & Polycrystalline CVD Diamond Wa...

Diamond wafers and substrates (single-crystal and polycrystalline CVD) for thermal management, optics, quantum/NV research, and high-power electronics. Custom thickness and polishing available.

Single-Crystal & Polycrystalline CVD Diamond Wa...

Diamond wafers and substrates (single-crystal and polycrystalline CVD) for thermal management, optics, quantum/NV research, and high-power electronics. Custom thickness and polishing available.

CLLB Scintillator Crystal | Neutron/Gamma PSD (...

CLLB (Cs₂LiLaBr₆:Ce) is an elpasolite single-crystal scintillator enabling gamma spectroscopy and thermal-neutron detection in one detector using pulse-shape discrimination (PSD). Reported references include light yield >40k photons/MeV and <4% resolution...

CLLB Scintillator Crystal | Neutron/Gamma PSD (...

CLLB (Cs₂LiLaBr₆:Ce) is an elpasolite single-crystal scintillator enabling gamma spectroscopy and thermal-neutron detection in one detector using pulse-shape discrimination (PSD). Reported references include light yield >40k photons/MeV and <4% resolution...

Resin 3D Printing (SLA/DLP) — High-Resolution Prototypes & Parts

Resin 3D Printing (SLA/DLP) — High-Resolution P...

Resin 3D printing (SLA/DLP) produces high-resolution parts with smooth surfaces and fine features. Material options include tough, high-temp, flexible, and clear resins with post-processing support.

Resin 3D Printing (SLA/DLP) — High-Resolution P...

Resin 3D printing (SLA/DLP) produces high-resolution parts with smooth surfaces and fine features. Material options include tough, high-temp, flexible, and clear resins with post-processing support.