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Chemical order in GexAsySe1-x-y glasses probed by high resolution X-ray photoelectron spectroscopy

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Xu, S. W.
Wang, R. P.
Luther-Davies, B.
Kovalskiy, A.
Miller, A. C.
Jain, H.

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American Institute of Physics (AIP)

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We have measured high-resolution x-ray photoelectron spectra of Ge xAsySe1-x-y glasses with a mean coordination number (MCN) from 2.2 to 2.78. The valence band spectra showed that a number of Se–Se–Se trimers can be found in Se-rich samples, whilst multiband features induced by phase separation can be observed in extremely Se-poor samples. When the Ge, As, and Se 3d spectra were decomposed into several doublets, which correspond, respectively, to different chemical environments, the perfect AsSe₃/₂ pyramidal and GeSe₄/₂ tetrahedral structures in Se-rich samples gradually evolved into defect structures, including As–As and Ge–Ge homopolar bonds, with increasing Ge and As concentrations. Two transition-like features were found at MCN = 2.5 and 2.64–2.72 that correspond first to the disappearance of Se-chains in the glass network and, subsequently, destruction of the perfect GeSe₄/₂ tetrahedral structures, respectively.

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Journal of Applied Physics

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