Origin of the 4.1-eV luminescence in pure CsI scintillator
- 15 January 1995
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 51 (4) , 2167-2172
- https://doi.org/10.1103/physrevb.51.2167
Abstract
The spectra and decay times of the 4.3- and 3.7-eV luminescence bands associated with the self-trapped excitons (STE’s) in CsI have been observed in a wide temperature range (4.5–300 K) by using two-photon spectroscopy. The results reveal that the 4.1-eV luminescence in pure CsI, which is well known as the room-temperature scintillation, appears mainly from the 4.3-eV STE state: the 4.3-eV STE luminescence is dominant below 6 K and is quenched above 6 K, but appears again at 4.1 eV at room temperature by thermal activation of STE’s from the 3.7-eV STE state to the 4.3-eV STE state.Keywords
This publication has 24 references indexed in Scilit:
- Resonance Raman scattering of the self-trapped exciton in alkali halidesPhysical Review Letters, 1992
- New features of self-trapped-exciton luminescence in rubidium iodidePhysical Review Letters, 1991
- Scintillation characteristics of pure and Tl-doped CsI crystalsIEEE Transactions on Nuclear Science, 1990
- An investigation on the characteristics of 'pure' CsI crystalsIEEE Transactions on Nuclear Science, 1990
- Shape of the π-luminescence band in NaCl: Adiabatic potential surface at the lowest state of the self-trapped excitonJournal of Physics: Condensed Matter, 1989
- Off-center self-trapped excitons and creation of lattice defects in alkali halide crystalsPhysical Review B, 1986
- Off-centre equilibrium configuration of the self-trapped exciton in alkali chloridesJournal of Physics C: Solid State Physics, 1985
- Self-trapped excitons in caesium iodide. II. Magneto-optical propertiesJournal of Physics C: Solid State Physics, 1980
- Self-trapped exciton in caesium iodide. III. Polarisation of the emissionsJournal of Physics C: Solid State Physics, 1980
- Scintillation Process in CsI(Tl). II. Emission Spectra and the Possible Role of Self-Trapped HolesPhysical Review B, 1963