Статья

Multicomponent Solid Solutions (ZnSe)1-x-y(Si2)x(GaP)y

А. С. СаидовPhysico-Technical Institute NPO "Physics-Sun", Academy of Sciences of Uzbekistan 100084, 2-B Badamzar yuli str. Tashkent, UzbekistanUsmonov Sn. N.Physico-Technical Institute NPO "Physics-Sun", Academy of Sciences of Uzbekistan 100084, 2-B Badamzar yuli str. Tashkent, UzbekistanU. Kh. RakhmonovPhysico-Technical Institute NPO "Physics-Sun", Academy of Sciences of Uzbekistan 100084, 2-B Badamzar yuli str. Tashkent, UzbekistanA. N. KurmantayevPhysico-Technical Institute NPO "Physics-Sun", Academy of Sciences of Uzbekistan 100084, 2-B Badamzar yuli str. Tashkent, UzbekistanA. N. BahtybayevPhysico-Technical Institute NPO "Physics-Sun", Academy of Sciences of Uzbekistan 100084, 2-B Badamzar yuli str. Tashkent, Uzbekistan

Journal of Materials Science Researchjournal2012en

ABI

Аннотация

Epitaxy layers of solid solution (ZnSe)1-x-y(Si2)x(GaP)y (0 £ ? £ 0.03, 0 £ y £ 0.09) were grown up from the limited volume of tin solution-melting by method of liquid phase epitaxy. Profiles of distribution of components Ga, P, Zn, Se and Si in grown up epitaxy layers are defined. In spectrum of the photoluminescence of surface of the solid solution at 5 K 2 peaks of radiation are found out. They are probably caused by compounds Si2 (1.67 eV) and GaP (2.21 eV). It has been shown that covalent coupling Si-Si and Ga-P cause impurity levels laying in the forbidden zone of the solid solution (ZnSe)1-x-y(Si2)x(GaP)y. Isotype heterojunction n-GaP-n+-(ZnSe)1-x-y(Si2)x(GaP)y (0 £ ? £ 0.03, 0 £ y £ 0.09) (without luminophor) gives red and yellow luminescence which is caused by electronic transitions from Si-Si and from Ga-P, taking place in tetrahedron lattice of the solid solution.

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Темы

Semiconductor Quantum Structures and Devices

Идентификаторы

DOI: 10.5539/jmsr.v1n2p150

Цитирования и источники

Цитирований: 1 Использованных источников: 5

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