Magneto-absorption in conical quantum dot ensemble: Possible applications for QD LED

Abstract

In the framework of the adiabatic approximation, the energy states of electron, as well as the direct light absorption are investigated in conical quantum dot under the external magnetic field. Analytical expressions for the particle wave function and energy spectrum are obtained. The dependence of the absorption edge on the geometrical parameters of conical quantum dot is obtained. Selection rules are revealed for transitions between levels with different quantum numbers. Absorption coefficient dependence on the frequency of the incident light is revealed taking into account dispersion of conical quantum dot's base radius for both cases of symmetric and asymmetric distribution functions. Such structures are very promising and can be used for the element base quantum dots LEDs.