Theoretical simulation of VK-centre migration in KCl. II. Phenomenological theory

E. A. Kotomin; L. N. Kantorovich; I. A. Tale; V. G. Tale

doi:10.1088/0953-8984/4/36/016

Theoretical simulation of V_K-centre migration in KCl. II. Phenomenological theory

E. A. Kotomin^*
, L. N. Kantorovich
, I. A. Tale
, V. G. Tale

^*Corresponding author for this work

University of Latvia

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

An adequate theoretical basis is developed and presented for a nonstationary technique for the experimental detection of reactions in insulating crystals controlled by tunnelling recombination of mobile defects (hole centres) with electron centres. The effect of finite hop lengths of point defects in a crystalline lattice is carefully analysed. This method is based on measuring the inertial increase or decrease in the recombination luminescence intensity after a stepwise change of temperature (defect mobility). Theoretical analysis of the transient process observed experimentally for V_K centres in KCl:Tl crystals argues for their motion through 60 degrees rotations with the frequency factor S_t=4*10¹³ s^-1, very close to that obtained earlier in the optical dichroism studies.

Original language	English
Article number	016
Pages (from-to)	7429-7440
Number of pages	12
Journal	Journal of Physics Condensed Matter
Volume	4
Issue number	36
DOIs	https://doi.org/10.1088/0953-8984/4/36/016
Publication status	Published - 1992

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abstract = "An adequate theoretical basis is developed and presented for a nonstationary technique for the experimental detection of reactions in insulating crystals controlled by tunnelling recombination of mobile defects (hole centres) with electron centres. The effect of finite hop lengths of point defects in a crystalline lattice is carefully analysed. This method is based on measuring the inertial increase or decrease in the recombination luminescence intensity after a stepwise change of temperature (defect mobility). Theoretical analysis of the transient process observed experimentally for VK centres in KCl:Tl crystals argues for their motion through 60 degrees rotations with the frequency factor St=4*1013 s-1, very close to that obtained earlier in the optical dichroism studies.",

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AU - Kotomin, E. A.

AU - Kantorovich, L. N.

AU - Tale, I. A.

AU - Tale, V. G.

PY - 1992

Y1 - 1992

N2 - An adequate theoretical basis is developed and presented for a nonstationary technique for the experimental detection of reactions in insulating crystals controlled by tunnelling recombination of mobile defects (hole centres) with electron centres. The effect of finite hop lengths of point defects in a crystalline lattice is carefully analysed. This method is based on measuring the inertial increase or decrease in the recombination luminescence intensity after a stepwise change of temperature (defect mobility). Theoretical analysis of the transient process observed experimentally for VK centres in KCl:Tl crystals argues for their motion through 60 degrees rotations with the frequency factor St=4*1013 s-1, very close to that obtained earlier in the optical dichroism studies.

AB - An adequate theoretical basis is developed and presented for a nonstationary technique for the experimental detection of reactions in insulating crystals controlled by tunnelling recombination of mobile defects (hole centres) with electron centres. The effect of finite hop lengths of point defects in a crystalline lattice is carefully analysed. This method is based on measuring the inertial increase or decrease in the recombination luminescence intensity after a stepwise change of temperature (defect mobility). Theoretical analysis of the transient process observed experimentally for VK centres in KCl:Tl crystals argues for their motion through 60 degrees rotations with the frequency factor St=4*1013 s-1, very close to that obtained earlier in the optical dichroism studies.

UR - https://www.scopus.com/pages/publications/36149031735

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JO - Journal of Physics Condensed Matter

JF - Journal of Physics Condensed Matter

IS - 36

M1 - 016

ER -

Theoretical simulation of V_K-centre migration in KCl. II. Phenomenological theory

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