KBr晶体基质的变形激发发光

Q4 Physics and Astronomy

Eurasian Journal of Physics and Functional Materials Pub Date : 2023-09-25 DOI:10.32523/ejpfm.2023070306

K. Shunkeyev, A. Tilep, Sh. Sagimbayeva, Zh. Ubaev

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引用次数: 0

摘要

电子激发的辐射弛豫-规则点阵中的自捕获激子(STE)(本征发光)和同源阳离子场中的类激子形成(ELF)(类激子发光)。研究发现，发光增强的最大效果出现在沿<110>晶体学方向(与<100>相比)，这与KBr晶体基质中自俘获阴离子激子(<110>)的方向一致。从STE本征s(4,42 eV)-和p(2,3 eV)-发光强度的增加，以及近单Na + (2.85 eV)、Na +、Na + (3.1 eV)和Na + Pb ++ (3.4 eV)对离子发光强度的增强-电子激发辐射松弛的复合机制推测了激子机制。

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Deformation-stimulated luminescence of a KBr crystal matrix

Radiative relaxations of electronic excitations - self-trapped excitons (STE) in regular lattice sites (intrinsic luminescence) and exciton-like formations (ELF) in the field of homologous cations (exciton-like luminescence). It has been found that the maximum effect of luminescence enhancement occurs upon uniaxial deformation along the <110> crystallographic direction (compared to <100>), which coincides with the direction of the self-trapped anion exciton (<110>) in the KBr crystal matrix. The exciton mechanism was estimated from the increase in the intensity of the intrinsic s(4, 42eV) - and p(2, 3eV) - luminescences of STE, and the enhancement of luminescence intensity of near-single Na + (2.85 eV), pair ions Na + , Na + (3.1 eV) and Na + Pb ++ (3.4 eV)- centers - recombination mechanism of radiative relaxation of electronic excitations.

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来源期刊

Eurasian Journal of Physics and Functional Materials Materials Science-Materials Science (miscellaneous)

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

5 weeks