Abstract
In the current work, we have studied the effect of a single donor impurity confined within GaN/AlN constant total effective radius multishell quantum dots (CTER-MSQDs) on optical properties, intersubband transition energies, and normalized ground-state wave functions. Systems with different numbers of wells and inner radius of the quantum dot have been explored. We have shown that systems with the largest inner quantum dot radius values have the smallest intersubband transition energies in both systems with and without donor impurities. Now, it is possible to localize the electron in any part of our quantum dot structure by changing the number of wells and inner quantum dot radius . We also show that in the presence and absence of the donor impurity, maximum absorption decreases when increases. Absorption band edges experience a redshift by increasing of the values for systems with a small number of wells, while they experience a blueshift by increasing of the values for systems with a larger number of wells. Adding the impurity does not affect the absorption coefficient of CTER-MSQDs with and . Maximum absorption of the studied systems decreases when we add the impurity. Finally, when increases, the refractive index changes gradually decrease for systems with a small number of wells and increase for systems with a large number of wells.
© 2016 Optical Society of America
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