Phosphorescence and Electron Traps. I. The Study of Trap Distributions

The fundamental connexion between thermoluminescence, phosphorescence and electron traps in solids has been investigated. Thermoluminescence and long-period phosphorescence arise from the release of electrons from metastable levels or traps. By studying the thermal stability of trapped electrons and...

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Bibliographic Details
Published in:Proceedings of the Royal Society of London. Series A, Mathematical and physical sciences Mathematical and physical sciences, 1945-11, Vol.184 (999), p.365-389
Main Authors: Randall, John Turton, Wilkins, Maurice Hugh Frederick
Format: Article
Language:English
Subjects:
Crystals
Electrons
Liquid air
Low temperature
Luminescence
Phosphorescence
Phosphors
Room temperature
Silicates
Zinc
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Summary:The fundamental connexion between thermoluminescence, phosphorescence and electron traps in solids has been investigated. Thermoluminescence and long-period phosphorescence arise from the release of electrons from metastable levels or traps. By studying the thermal stability of trapped electrons and the probability of release from traps of different depths, methods have been developed for finding the depths of electron traps in phosphors. The main experiment consists in exciting the phosphor at low temperatures until all the traps are filled; the phosphor is then warmed at a steady rate and the light emitted while warming is measured as a function of the temperature. The results show that the trap distribution in impurity phosphors such as willemite and the alkaline earth sulphides are, in general, complex, and extend over a range often as wide as 0·2-1·0 eV. The probability of release of an electron from a trap of depth E at temperature T is of the form se-E/kT, where is a constant. Values of s for alkaline earth and zinc sulphides are in the neighbourhood of 108±1 sec.-1.
ISSN:1364-5021
0080-4630
1471-2946
2053-9169
DOI:10.1098/rspa.1945.0024