Chaotic behavior of light-assisted physical aging in arsenoselenide glasses
The theory of strange attractors is shown to be adequately applicable for analyzing the kinetics of light-assisted physical aging revealed in structural relaxation of Se-rich As-Se glasses below glass transition. Kinetics of enthalpy losses is used to determine the phase space reconstruction paramet...
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Veröffentlicht in: | Chaos (Woodbury, N.Y.) N.Y.), 2014-12, Vol.24 (4), p.043138-043138 |
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container_title | Chaos (Woodbury, N.Y.) |
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creator | Shpotyuk, O Balitska, V Kozdras, A Hacinliyan, A S Skarlatos, Y Aybar, I Kusbeyzi Aybar, O O |
description | The theory of strange attractors is shown to be adequately applicable for analyzing the kinetics of light-assisted physical aging revealed in structural relaxation of Se-rich As-Se glasses below glass transition. Kinetics of enthalpy losses is used to determine the phase space reconstruction parameters. Observed chaotic behaviour (involving chaos and fractal consideration such as detrended fluctuation analysis, attractor identification using phase space representation, delay coordinates, mutual information, false nearest neighbours, etc.) reconstructed via the TISEAN program package is treated within a microstructure model describing multistage aging behaviour in arsenoselenide glasses. This simulation testifies that photoexposure acts as an initiating factor only at the beginning stage of physical aging, thus facilitating further atomic shrinkage of a glassy backbone. |
doi_str_mv | 10.1063/1.4903795 |
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subjects | AGING ARSENIC SELENIDES ATTRACTORS CHAOS THEORY CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Computer simulation ENTHALPY FLUCTUATIONS Fractal analysis FRACTALS GLASS KINETICS MICROSTRUCTURE PHASE SPACE RELAXATION SHRINKAGE SIMULATION Strange attractors Variations VISIBLE RADIATION |
title | Chaotic behavior of light-assisted physical aging in arsenoselenide glasses |
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