Abstract
Cerium doped scintillators are characterized by an excellent energy resolution, a very high light yield and fast timing properties. In this work, we grew a CeBr3 (p = 5.18 g/cm3) single crystal by the Bridgman method using a two-zone transparent vertical furnace. The CeBr3 is crystallized in the hexagonal structure of the UCl3 type. We investigated the thermoluminescence (TL) of the CeBr3 such as glow curve, dose response, fading etc. TL is a convenient technique to understand the charge trapping and detrapping mechanisms that result from the interaction of the radiation with the existing defects in material, which may interfere with the scintillator response. We determined the kinetic parameters of the TL traps of the CeBr3 scintillator such as activation energy, frequency factor, and kinetic order by using peak shape method, variable heating rate method, and initialize method.
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