Impurity- and defect-related luminescence of ZnSe:Fe at Low Temperatures

Impurity- and defect-related luminescence of ZnSe:Fe at Low Temperatures

Polycrystalline zinc selenide is doped with an iron impurity to a concentration of ~10 19 cm −3 in a zinc vapor atmosphere by the thermal diffusion method, and the distribution profile of optically active iron Fe 2+ is obtained. The effect of the Fe 2+ concentration on impurity-and defect-related Zn...

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Veröffentlicht in:Bulletin of the Lebedev Physics Institute 2019-07, Vol.46 (7), p.238-242
Hauptverfasser: Pruchkina, A. A., Aminev, D. F., Ushakov, V. V., Chentsov, S. I., Gladilin, A. A., Krivobok, V. S., Onischenko, E. E., Kalinushkin, V. P.
Format: Artikel
Sprache:eng
Schlagworte:
Defects
Impurities
Iron
Low temperature
Luminescence
Optical activity
Physics
Physics and Astronomy
Thermal diffusion
Zinc selenide
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Zusammenfassung:Polycrystalline zinc selenide is doped with an iron impurity to a concentration of ~10 19 cm −3 in a zinc vapor atmosphere by the thermal diffusion method, and the distribution profile of optically active iron Fe 2+ is obtained. The effect of the Fe 2+ concentration on impurity-and defect-related ZnSe luminescence spectra at low temperatures is determined. In the range of 1.28—1.31 eV, a luminescence line with a decay time of ~0.341 ms is detected, with its intensity increasing in regions with Fe 2+ concentration close to the maximum one. The line is attributed to the luminescence center arising due to the Fe 2+ interaction with a background impurity or defect in ZnSe.
ISSN:1068-3356
1934-838X
DOI:10.3103/S1068335619070078