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періодичних видань НАН України
On the origin of radiation-induced metastability in vitreous chalcogenide semiconductors: The role of intrinsic and impurity-related destruction-polymerization transformations
Репозиторій DSpace/Manakin
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- Фізико-технічні та математичні науки
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- Відділення фізики і астрономії
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- Semiconductor Physics Quantum Electronics & Optoelectronics
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- Semiconductor Physics Quantum Electronics & Optoelectronics, 2015, том 18
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- Semicond. Physics Quantum Electronics & Optoelectronics, 2015, № 1
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On the origin of radiation-induced metastability in vitreous chalcogenide semiconductors: The role of intrinsic and impurity-related destruction-polymerization transformations
Інший ID:
DOI: 10.15407/spqeo18.01.090
PACS 61.43.Fs, 61.80.Ed, 78.20.-e
PACS 61.43.Fs, 61.80.Ed, 78.20.-e
Посилання:
On the origin of radiation-induced metastability in vitreous chalcogenide semiconductors: The role of intrinsic and impurity-related destruction-polymerization transformations / M.V. Shpotyuk, M.M. Vakiv, O.I. Shpotyuk, S.B. Ubizskii // Semiconductor Physics Quantum Electronics & Optoelectronics. — 2015. — Т. 18, № 1. — С. 90-96. — Бібліогр.: 45 назв. — англ.
Підтримка:
The authors appreciate acknowledgement for As₂S₃ samples described by T. Kavetskyy in [10], while are forced to declare that such samples were never provided to him within joint projects.
Дата:
2015
Переглядів:
698
Завантажень:
479
Анотація:
Radiation-optical effects in vitreous chalcogenide semiconductors are comprehensively analyzed as resulting from both intrinsic and impurity-related redistribution of covalent chemical bonds known also together as destructionpolymerization
transformations. Two types of experimental measuring protocols can be used to study radiation-induced effects within ex-situ direct or in-situ backward measuring chronology, the latter being more adequate for correct separated testing of competitive inputs from both channels of destruction-polymerization transformations. Critical assessment is given on speculations trying to ignore intrinsic radiation-structural transformations in As₂S₃ glass in view of accompanying oxidation processes. In final, this glass is nominated as the best model object among wide group of vitreous chalcogenide semiconductors revealing the highest sensitivity to radiation-induced metastability.
