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DETERMINATION OF THE TEMPERATURE DE PENDENCE OF THE FERMI ENERGY OSCILLATIONS IN NANOSTRUCTURED SE MICONDUCTOR MATERIALS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD

SEMOCONDUCTOR PHYSICS AND MICROELECTRONICS Pub Date : 2021-04-30 DOI:10.37681/2181-1652-019-x-2021-2-8
U. Erkaboev, N. Sayidov, J. Mirzaev, R. Rakhimov
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Abstract

In this article investigated the effects of a quantizing magnetic field and temperature on Fermi energy oscillations in nanoscale semiconducto r materials. It is shown that the Fermi energy of a nanoscale semiconductor material in a quantizing magnetic field is quantized. For the first time, a mathematical model was developed for determining the effect of temperature and a quantizing magnetic field on oscillations of the Fermi energy in nanoscale semiconductor structures with a parabolic dispersion law
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量子化磁场存在下纳米结构半导体材料中费米能量振荡的温度依赖性测定
本文研究了量子化磁场和温度对纳米半导体材料中费米能振荡的影响。结果表明,纳米级半导体材料在量子化磁场中的费米能是量子化的。本文首次建立了温度和量子化磁场对纳米级半导体结构中费米能振荡影响的数学模型,该模型具有抛物线色散规律
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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SEMOCONDUCTOR PHYSICS AND MICROELECTRONICS
SEMOCONDUCTOR PHYSICS AND MICROELECTRONICS
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