THE HYDROSTATIC PRESSURE EFFECT ON THE NORMALIZED INTRADONOR TRANSITION ENERGY IN A GAAS/GA1-XALXAS SPHERICAL QUANTUM DOT

TITLE
THE HYDROSTATIC PRESSURE EFFECT ON THE NORMALIZED INTRADONOR TRANSITION ENERGY IN A GAAS/GA1-XALXAS SPHERICAL QUANTUM DOT

AUTHOR(S)
A.I. Mese

ABSTRACT
In this study, the change of normalized intradonor transition energy depending on hydrostatic pressure is calculated using the variation method with the effective mass approach. Normalized intradonor transition energy is found using ground state (1s) and excited state (1p) impurity energies. It has been observed that the normalized inradonor transition energy increases with the quantum dot radius and hydrostatic pressure and decreases when the impurity moves from the center to the edge of the dot. Calculating the intradonor transition energy can make it possible to determine the position of the impurity in a spherical quantum dot. The results are in agreement with the studies found in the literature.

DOI

PAGES
289-294

DOWNLOAD
https://unitechsp.tugab.bg/images/2023/7-FH/s17_p21_v1.pdf

How to cite this article:
A.I. Mese, THE HYDROSTATIC PRESSURE EFFECT ON THE NORMALIZED INTRADONOR TRANSITION ENERGY IN A GAAS/GA1-XALXAS SPHERICAL QUANTUM DOT, Proceedings of International Scientific Conference “UNITECH 2023” – Gabrovo, 289-294