Publikace: As2S3 Glass Quenched in a Weak Magnetic Field
Článekopen accesspeer-reviewedpostprintNačítá se...
Soubory
Datum
Autoři
Kozyukhin, S. A.
Krbal, Miloš
Kohara, S.
Kononov, A. A.
Anisimova, N. I.
Kolobov, A. V.
Název časopisu
ISSN časopisu
Název svazku
Nakladatel
Abstrakt
Abstract: S- and Se-based chalcogenide glasses are inherently metastable and exhibit a number of photoinduced effects unique to this class of materials, the major example being reversible photostructural changes. Such changes appear as reversible darkening under the exposure to band gap light and are usually interpreted in terms of the formation of valence alternation pairs and “wrong” bonds. Some time ago, it was shown that quenching an As2S3 melt in a weak magnetic field also resulted in a decrease in the glass optical band gap. In this work, we report the results of comparative extended X-ray absorption fine structure (EXAFS) and high-energy X-ray diffraction studies of the local structure of the As2S3 glass formed through quenching the melt in a weak magnetic field and without it. Based on these experiments and density functional theory simulations, we propose a model for the structural nanoscale modification of diamagnetic As2S3 under the action of a magnetic field. © 2023, Pleiades Publishing, Ltd.
Popis
Klíčová slova
As2S3, chalcogenide glasses, density functional theory, EXAFS, local structure, magnetic field, melt quenching, nanoscale modification, X-ray diffraction analysis, chalkogenidová skla, As2S3, magnetické pole, lokální struktura, EXAFS, chlazení taveniny, RTG difrakční analýza, teorie funkcionálu hustoty, modifikace na úrovni nanometrů