Analysis of thermal processes in Cux(AsTe)100−x glasses

Chalcogenide glasses are promising materials for application in fiber optics and all-optical switching devices at telecommunication wavelengths, due to both their high transparency in the infrared region and their nonlinear refractive index. In this paper we present and discuss the results of the an...

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Bibliographic Details
Published inPhysica scripta Vol. T157; no. 1
Main Authors Šiljegovi, Mirjana V, Luki -Petrovi, Svetlana R, Štrbac, Goran R, Petrovi, Dragoslav M
Format Journal Article
LanguageEnglish
Published IOP Publishing 15.11.2013
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Summary:Chalcogenide glasses are promising materials for application in fiber optics and all-optical switching devices at telecommunication wavelengths, due to both their high transparency in the infrared region and their nonlinear refractive index. In this paper we present and discuss the results of the analysis of the processes that occur during the thermal treatment of the Cux(AsTe)100−x glass system, x = 5 and 20 at.%. Our analysis is based on differential scanning calorimetry (DSC) curves, recorded in non-isothermal measurement conditions in temperature intervals of 300-770 K, at a heating rate of β = 10 K min−1. Samples with x = 20 at.% are thermally treated at four different heating rates in order to implement kinetic analysis of the processes. The activation energy of the crystallization Ec is determined by the Kissinger and Mahadevan methods. The characteristic parameters of the crystallization process are determined using the Matusita method. We conclude that nucleation occurs in three dimensions and within the volume. The amorphous character of the as-prepared samples is verified by x-ray. A diffractogram of the glass sample with x = 20 at.%, which was annealed at a temperature close to the crystallization temperature established by the DSC analysis, shows that structural units of copper with arsenic and copper with arsenic and telluride are formed within the amorphous matrix.
ISSN:0031-8949
1402-4896
DOI:10.1088/0031-8949/2013/T157/014027