Mechanisms of radiation defect formation in KCl crystals under the influence of local and plastic deformation

Shunkeyev K. Aimaganbetova Z. Myasnikova L. Maratova A. Ubaev Z.
15 December 2021 Elsevier B.V.

Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
2021 #509 7 - 11 pp.

This work proposes an original approach to the study of trihalide centers in a KCl matrix in the field of local and plastic deformation. Local lattice deformation is carried out by purposeful doping of the KCl crystal with light homologous cations, as well as bivalent impurities, which create dipole strontium complexes to maintain the electroneutrality of the lattice. Plastic deformation, which creates paired vacancy defects in the lattice, divacancies and vacancy quartets, is realized at room temperature within the degree of relative uniaxial deformation of 3–5%. After subsequent cooling down to 80 K the deformed crystal was additionally irradiated with X-rays. The absorption spectra of the crystals subjected to two types of deformation and additional isodose irradiation by X-rays were recorded in a special cryostat at 80 K. The spectral characteristics and formation efficiency of V-type centers, lithium- and strontium-containing centers in the field of pre-irradiation dipole complexes have been considered.

KCl crystals , Optical absorption spectra , Plastic deformation , Radiation defects , Vacancy dipole complexes

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K. Zhubanov Aktobe Regional University, Moldagulova av. 34, Aktobe, 030000, Kazakhstan

K. Zhubanov Aktobe Regional University

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