Optical properties of ZnSe(Te) with ytterbium impurity

We report the results on infrared transmission measurements of non-doped and tellurium-doped crystals of zinc selenide grown from the melt. It was found that non-doped samples feature high transmission (50%-60%) for the wavelengths of 1-22 μm. The efficient scintillating crystals of ZnSe(Te) are alm...

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Veröffentlicht in:	Applied optics (2004) 2016-04, Vol.55 (12), p.B1-B3
Hauptverfasser:	Makhniy, Viktor P, Horley, Paul P, Vorobiev, Yuri V, Kinzerska, Oksana V
Format:	Artikel
Sprache:	eng
Schlagworte:	Crystals Impurities Infrared Optical properties Spectra Wavelengths Ytterbium Zinc selenides
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creator	Makhniy, Viktor P Horley, Paul P Vorobiev, Yuri V Kinzerska, Oksana V
description	We report the results on infrared transmission measurements of non-doped and tellurium-doped crystals of zinc selenide grown from the melt. It was found that non-doped samples feature high transmission (50%-60%) for the wavelengths of 1-22 μm. The efficient scintillating crystals of ZnSe(Te) are almost opaque for λ>7 μm. Doping these samples with ytterbium from the gas phase does not achieve any significant transmission increase for non-doped ZnSe samples in the spectral range of 1-22 μm. However, it considerably increases (up to 50%) transmission for doped ZnSe(Te) at the wavelengths λ>10 μm. These optical peculiarities were analyzed taking into account restructurization of point defect ensembles created by Te and Yb impurities.
doi_str_mv	10.1364/AO.55.0000B1
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subjects	Crystals Impurities Infrared Optical properties Spectra Wavelengths Ytterbium Zinc selenides
title	Optical properties of ZnSe(Te) with ytterbium impurity
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