MODELLING OF DIFFICULT EFFECTS BELONG TO THE PHYSICS ON THE BASIS OF ICT
Abstract
The energetic spectrum of the polaron is studied by the method of Buymistrov-Pekar in a spherical quantum dot which consists of polarizing (polar) semiconductors. The connection of the correction of polaron effect to the size of the quantum dot was found for the primary and the first excited state energy of the electron. It has been shown that the determined expression of the wave function of the phonons can be more accurately estimated by the energy of polar state, and these found energy surfaces are more strongly connected to the size of quantum dot than the result of other methods.