Nonlinear optical properties of a Woods–Saxon quantum dot under an electric field

“…External perturbations, such as application of electric field highlight important aspects of confined impurities [26][27][28][29][30][31][32][33][34][35][36][37][38][39]. The interplay between impurity and the applied field affects the optical properties and turns out to be important in view of fundamental physics and device applications.…”

Noise-driven optical absorption coefficients of impurity doped quantum dots

“…External perturbations, such as application of electric field highlight important aspects of confined impurities [26][27][28][29][30][31][32][33][34][35][36][37][38][39]. The interplay between impurity and the applied field affects the optical properties and turns out to be important in view of fundamental physics and device applications.…”

Noise-driven optical absorption coefficients of impurity doped quantum dots

“…External perturbations, such as application of electric field, have been found to provide valuable information about confined impurities [29][30][31][32][33][34][35][36][37][38][39][40][41]. The interplay between impurity and the applied field modulates the optical properties and has drawn attention in view of fundamental physics and device applications.…”

Oscillator strength of impurity doped quantum dots: Influence of Gaussian white noise

“…It has to be noted that authors of the work [8] made similar investigations with rectangular QW energy profile and they predicted the transformation of a single QW into the double QW structure for a big ILF parameter a 0 . Other authors [9,10] have used the Woods-Saxon potential to model confinement in a semiconductor quantum dots and calculated nonlinear optical responses. It has to be concluded that it is of interest to compare the results obtained for two different models of the QW.…”

Intense laser field effects on a Woods–Saxon potential quantum well