News
Fundamentals of Custom Crystal Growth (Methods,...
Custom crystal growth relies on precise control of method, purity, doping, orientation, and post-processing. Different growth techniques—Czochralski, Bridgman, hydrothermal, flux, and floating-zone—are chosen based on material chemistry and research requirements....
Fundamentals of Custom Crystal Growth (Methods,...
Custom crystal growth relies on precise control of method, purity, doping, orientation, and post-processing. Different growth techniques—Czochralski, Bridgman, hydrothermal, flux, and floating-zone—are chosen based on material chemistry and research requirements....
CsI(Tl) Energy Resolution at 662 keV | Full Tec...
CsI(Tl) scintillators typically achieve about 6% energy resolution at 662 keV when coupled with a PMT. Resolution depends on crystal size, optical finish, Tl concentration, and readout electronics. CsI(Tl) provides...
CsI(Tl) Energy Resolution at 662 keV | Full Tec...
CsI(Tl) scintillators typically achieve about 6% energy resolution at 662 keV when coupled with a PMT. Resolution depends on crystal size, optical finish, Tl concentration, and readout electronics. CsI(Tl) provides...
How to Choose a Scintillator for Gamma Spectros...
The best scintillator for gamma spectroscopy depends on required resolution, counting rate, ruggedness, and environmental conditions. NaI(Tl) provides a good balance of cost and performance, CsI(Tl) is ideal for portable...
How to Choose a Scintillator for Gamma Spectros...
The best scintillator for gamma spectroscopy depends on required resolution, counting rate, ruggedness, and environmental conditions. NaI(Tl) provides a good balance of cost and performance, CsI(Tl) is ideal for portable...