4.6 Article

Bulk and surface processes in KBr single crystals examined by thermostimulated luminescence and exo-electron emission

Journal

OPTICAL MATERIALS
Volume 117, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.optmat.2021.111191

Keywords

Thermostimulated exo-electron emission; Thermostimulated luminescence; UV irradiation; X-ray irradiation; Low temperature; KBr

Funding

  1. Ministry of Education, Youth and Sports (MEYS) [SOLID21 CZ.02.1.01/0.0/0.0/16_019/0000760]
  2. Czech Science Foundation [1817834S]
  3. Academy of Sciences - Czech [LZA1901, EST1801]
  4. Academy of Sciences - Latvian [LZA1901]
  5. Academy of Sciences - Estonian [EST1801]

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This article discusses a method for simultaneous measurements of thermally stimulated processes and analysis of the results, with consistency shown in comparison to previous studies. Using high-purity monocrystalline KBr material under different temperature and pressure conditions, reliable experimental data was obtained.
This article belongs to a three-part series dedicated to the simultaneous measurements of thermally stimulated exo-electron emission (TSEE), desorption (TSD) and luminescence (TSL). These works aim is to verify the ability of the applied experimental setup to characterize and analyze at the same time all the three above-mentioned stimulated processes. In agreement with the two preceding publications that deal TSD and TSEE, this article proves the consistency of the results of the individual modes of joint measurements of TSL and TSEE (as well as bulk and surface, the corresponding sources of emission, the recombination processes and their interactions). The whole experimental apparatus was tested using a well-known material, high-purity monocrystalline KBr, in the temperature range Delta T = -196 ?C-430 ?C (Delta T = 77 K-703 K) and in the chamber with base pressure p < 1 x 10-6 Pa to obtain a better comparison of results. Our in-house developed software for decomposing of the measured curves into the individual components and the subsequent calculation of the corresponding activation energies and frequency factors clearly confirms these results.

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