Maqola

Calculation of the Fermi–Dirac Function Distribution in Two-Dimensional Semiconductor Materials at High Temperatures and Weak Magnetic Fields

U. I. ErkaboevDepartment of Automation and Control of Technological, Processes and Information Technology, Namangan Institute of Engineering and Technology, Namangan 160115, UzbekistanG. GulyamovNamangan Engineering-Construction Institute, Namangan 160103, UzbekistanJ. I. MirzaevNamangan Institute of Engineering and Technology, Namangan 160115, UzbekistanR. G. RakhimovNamangan Engineering-Construction Institute, Namangan 160103, UzbekistanN. A. SayidovNamangan Institute of Engineering and Technology, Namangan 160115, Uzbekistan

NANOjournal2021en

ABI

Annotatsiya

This article investigated the effects of a quantizing magnetic field and temperature on Fermi energy oscillations in nanoscale semiconductor materials. It is shown that the Fermi energy of a nanoscale semiconductor material in a quantizing magnetic field is quantized. The distribution of the Fermi–Dirac function is calculated in low-dimensional semiconductors at weak magnetic fields and high temperatures. The proposed theory explains the experimental results in two-dimensional semiconductor structures with a parabolic dispersion law.

Mavzular

Surface and Thin Film Phenomena Quantum and electron transport phenomena Topological Materials and Phenomena

Identifikatorlar

DOI: 10.1142/s1793292021501022

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