Title :
Stoichiometric cerium compounds as scintillators, II. CeP5 O14
Author :
Wojtowicz, A.J. ; Berman, E. ; Lempicki, A.
Author_Institution :
Dept. of Chem., Boston Univ., MA, USA
fDate :
10/1/1992 12:00:00 AM
Abstract :
For pt.I see NSSMI Conf. Record, Nov., 1991, NM, USA. Results showing the relative importance of several processes which are responsible for the efficiency and speed of a scintillator are presented. Arguments for concentrated materials are presented and illustrated in the case of Ce-pentaphosphate, (CeP5O14 ). The low density of this material does not make it a viable scintillator, but its remarkable simplicity and relatively easy technology make it perfect to study basic physical mechanisms of scintillation in concentrated materials. Based on studies of a series of CexLa1-xP5O14 crystals, the authors formulate general conclusions relating to the relative importance of the process starting with direct ionization of the emitting centers (Ce3+) versus long range gathering of electron-hole pairs. These conclusions provide guidance for optimizing the speed and efficiency of future concentrated scintillators. Some peculiarities of the Ce-pentaphosphate luminescence are reported and interpreted
Keywords :
cerium compounds; scintillation counters; Ce-pentaphosphate luminescence; CexLa1-xP5O14 crystals; CeP5O14; density; direct ionization; electron-hole pairs; emitting centers; scintillator; Cerium; Chemistry; Electron optics; Energy exchange; High speed optical techniques; Ionization; Luminescence; Particle beam optics; Testing; US Department of Energy;
Journal_Title :
Nuclear Science, IEEE Transactions on
