THE EFFECT OF TEMPERATURE ON THE SELF-POLARIZATION IN AN INFINITE GaAs/AlAs CYLINDRICAL QUANTUM WELL-WIRE

TITLE
THE EFFECT OF TEMPERATURE ON THE SELF-POLARIZATION IN AN INFINITE GaAs/AlAs CYLINDRICAL QUANTUM WELL-WIRE

AUTHOR(S)
Engin CİCEK

ABSTRACT
This work investigates the effects of temperature on self-polarization for different wire radii under an applied external magnetic field in an infinite GaAs/AlAs cylindrical quantum well-wire for the ground state. The variational method is used in the calculations by taking impurities in different positions from the centre to the edge of the wire. Self-polarization increases with increasing impurity atom distance from the centre, wire radius, and temperature. Moreover, as the magnetic field increases, self-polarization decreases. All calculations are in agreement with available data in the literature.

DOI
www.doi.org/10.70456/MCGO7649

PAGES
295-300

DOWNLOAD
https://unitechsp.tugab.bg/images/2023/7-FH/s17_p43_v2.pdf

How to cite this article:
Engin CİCEK, Taşkın TEZ, THE EFFECT OF TEMPERATURE ON THE SELF-POLARIZATION IN AN INFINITE GaAs/AlAs CYLINDRICAL QUANTUM WELL-WIRE, UNITECH – SELECTED PAPERS - 2024, 295-300