INFLUENCE OF A QUANTIZING MAGNETIC FIELD ON THE FERMI ENERGY OSCILLATIONS IN TWO-DIMENSIONAL SEMICONDUCTORS

Authors

  • U. I. Erkaboev, R. G. Rakhimov Namangan Institute of Engineering and Technology,160115, Namangan, Uzbekistan
  • N. Y. Azimova Namangan State University, 160107, Namangan, Uzbekistan

Keywords:

semiconductor, Fermi energy, quantizing magnetic field, dispersion law, two-dimensional semiconductor structure, 2D electron gas.

Abstract

In this article we investigated the effects of 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 quantized 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.

Downloads

Published

2023-03-13

Issue

Vol. 7 (2023)

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

INFLUENCE OF A QUANTIZING MAGNETIC FIELD ON THE FERMI ENERGY OSCILLATIONS IN TWO-DIMENSIONAL SEMICONDUCTORS. (2023). Neo Scientific Peer Reviewed Journal, 7, 35-50. https://neojournals.com/index.php/nspj/article/view/131