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On Wannier exciton 2D localization in hydrogen intercalated InSe and GaSe layered semiconductor crystals
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, 2004, том 7
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- Semicond. Physics Quantum Electronics & Optoelectronics, 2004, № 4
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On Wannier exciton 2D localization in hydrogen intercalated InSe and GaSe layered semiconductor crystals
Інший ID:
PACS: 71.35.Cc, 78.40.Fy
Посилання:
On Wannier exciton 2D localization in hydrogen intercalated InSe and GaSe layered semiconductor crystals / Yu.I. Zhirko, I.P. Zharkov, Z.D. Kovalyuk, M.M. Pyrlja, V.B. Boledzyuk // Semiconductor Physics Quantum Electronics & Optoelectronics. — 2004. — Т. 7, № 4. — С. 404-410. — Бібліогр.: 22 назв. — англ.
Підтримка:
This work was partially supported by the Basic Research Fund of Ukraine (Project No F7/310-2001).
Дата:
2004
Переглядів:
848
Завантажень:
483
Анотація:
Exciton absorption spectra of layered InSe and GaSe crystals electrochemically intercalated by hydrogen were investigated. It was found that the observed at T = 80 K non-monotonic shift of the exciton absorption peak n = 1 with growing hydrogen concentration x (here x is the amount of hydrogen atoms per a formula unit of a crystal matrix) stems from the increasing dielectric permittivity of the crystal ε₀ due to availability of hydrogen in the van der Waals gap. Growth of ε₀(x) results in decrease of the exciton binding energy but, at larger x concentrations (when the anisotropy parameter ε*(х) grows), 2D localization of exciton motion in the crystal layer plane takes place, which causes reduction and then, at x > 1, stabilization of sizes both for the exciton and quantum well.
