Nuclear Technology & Radiation Protection Journal


NT & RP Journal	CALCULATION OF PARAMETERS FOR THE MODEL OF AN IDEAL PHOSPHOR
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Vol. XXXI, No. 2, Pp. 111-195 June 2016 UDC 621.039+614.876:504.06 ISSN 1451-3994 Back to Contents	Pages: 111-120 Authors: Zdravko M. Vejnović, Miloš B. Pavlović, Pavle A. Hadžić, and Milorad P. Davidović Abstract Equations for the calculation of kinetic parameters of thermoluminescent processes are theoretically derived for a model of an ideal phosphor. The values used in the calculation are obtained from glow curves and the function that describes the normalized glow curve generated. On the basis of this function, the equations for activation energy, frequency factor, and retrapping factor, were derived. All expressions are valid for a general case, when the filling factor of traps is ƒ₀≤1. The concept of kinetics order was used for the calculation of parameters and the parameter of kinetics order was defined by means of real physical parameters. Results obtained by the analysis of synthetic curves and experimental glow curves of phosphor materials provide a deeper understanding of thermoluminescent kinetics. Key words: thermoluminescence, kinetics order, glow curve, kinetics model, activation energy FULL PAPER IN PDF FORMAT (1.20 MB)
Vinča Institute of Nuclear Sciences :: Designed by milas :: July 2007 Operated by acapanic :: Last updated on July, 2016

Pages: 111-120

Authors: Zdravko M. Vejnović, Miloš B. Pavlović, Pavle A. Hadžić, and Milorad P. Davidović

Abstract

Equations for the calculation of kinetic parameters of thermoluminescent processes are theoretically derived for a model of an ideal phosphor. The values used in the calculation are obtained from glow curves and the function that describes the normalized glow curve generated. On the basis of this function, the equations for activation energy, frequency factor, and retrapping factor, were derived. All expressions are valid for a general case, when the filling factor of traps is ƒ₀≤1. The concept of kinetics order was used for the calculation of parameters and the parameter of kinetics order was defined by means of real physical parameters. Results obtained by the analysis of synthetic curves and experimental glow curves of phosphor materials provide a deeper understanding of thermoluminescent kinetics.

Key words: thermoluminescence, kinetics order, glow curve, kinetics model, activation energy

FULL PAPER IN PDF FORMAT (1.20 MB)