FSDP-related correlations in γ-irradiated chalcogenide semiconductor glasses: The case of glassy arsenic trisulphide g-As2S3 revised

• Published in: The Journal of physics and chemistry of solids Vol. 74; no. 12; pp. 1721 - 1725
• Main Authors: Shpotyuk, M., Shpotyuk, O., Golovchak, R., Demchenko, P.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.12.2013
• Subjects: A. Chalcogenides; A. Glasses; C. X-ray diffraction; D. Optical properties; D. Radiation damage; D. Radiation damage; A. Glasses; C. X-ray diffraction; D. Optical properties; A. Chalcogenides
• ISSN: 0022-3697; 1879-2553
• DOI: 10.1016/j.jpcs.2013.06.016

Influence of high-energy γ-irradiation on the FSDP in XRD pattern is investigated at the example of g-As2S3. Spectroscopic measurements in the fundamental optical absorption edge regions were used to characterize the value of γ-induced changes through the observed darkening effect. It is concluded that γ-irradiation with ~3MGy dose does not produce any detectable changes in the FSDP parameters, but leads to the appearance of satellite peaks at the left and right sides of the FSDP. Detailed analysis allows attributing of these peaks to crystalline As2O3 and S phases, which appear at the surface of g-As2S3 after prolonged γ-irradiation. Some correlations with the value of γ-induced optical changes in g-As2S3 were detected only for pre-FSDP. •Optical absorption edge of As2S3 glass exhibits long-wave shift under γ-irradiation.•This effect causes no detectable changes in the FSDP parameters.•Observed broadening in the FSDP is due to satellite peaks.•Crystalline As2O3 and S phases appear at the surface of irradiated samples.•Pre-FSDP shows an obvious dependence on sample prehistory.