Abstract
Abstract
In this paper, the energy levels and nonlinear optical properties modulated by the applied electric field are analytically investigated where a hydrogenic impurity is confined in the GaAs/GaAlAs hexagonal quantum dot(QD). The linear and nonlinear optical absorption coefficients(OACs) have been obtained by using the compact density matrix and iterative approach. In the one electron approximation, an off-center hydrogenic donor impurity is considered, and the results show that the energy levels and nonlinear optical absorption of the dot depend strongly on the hydrogenic impurity. Especially, The overall results show that the geometric parameter and the magnitude of confinement potential of hexagonal QD, and the applied electric field act a very important role in the electronic and optical properties of hexagonal QD.
Subject
Condensed Matter Physics,Mathematical Physics,Atomic and Molecular Physics, and Optics