Knowledge
Best Scintillators for Portable Radiation Detec...
Portable radiation detectors require scintillators that balance sensitivity, ruggedness, fast response, and low power consumption. This guide compares CsI(Tl), LYSO, NaI(Tl), BGO, and LaBr₃, highlighting performance trade-offs, durability, hygroscopicity, and...
Best Scintillators for Portable Radiation Detec...
Portable radiation detectors require scintillators that balance sensitivity, ruggedness, fast response, and low power consumption. This guide compares CsI(Tl), LYSO, NaI(Tl), BGO, and LaBr₃, highlighting performance trade-offs, durability, hygroscopicity, and...
CsI(Tl) Energy Resolution at 662 keV | Full Tec...
The typical energy resolution of CsI(Tl) scintillators at 662 keV is about 6% FWHM. This article explains the physical reasons behind CsI(Tl)’s performance, compares it with NaI(Tl), LYSO, and LaBr₃,...
CsI(Tl) Energy Resolution at 662 keV | Full Tec...
The typical energy resolution of CsI(Tl) scintillators at 662 keV is about 6% FWHM. This article explains the physical reasons behind CsI(Tl)’s performance, compares it with NaI(Tl), LYSO, and LaBr₃,...
How to Choose a Scintillator for Gamma Spectros...
Choosing the right scintillator is critical for gamma spectroscopy performance. This guide compares NaI(Tl), CsI(Tl), LYSO, BGO, and LaBr₃(Ce) based on energy resolution, density, light yield, decay time, hygroscopicity, and...
How to Choose a Scintillator for Gamma Spectros...
Choosing the right scintillator is critical for gamma spectroscopy performance. This guide compares NaI(Tl), CsI(Tl), LYSO, BGO, and LaBr₃(Ce) based on energy resolution, density, light yield, decay time, hygroscopicity, and...