Profile alterations of a symmetrical light pulse coming through a quantum well
Abstract
The theory of a response of a two-energy-level system, irradiated by symmetrical light pulses, has been developed.(Suchlike electronic system approximates under the definite conditions a single ideal quantum well (QW) in a strong magnetic field H, directed perpendicularly to the QW's plane, or in magnetic field absence.) The general formulae for the time-dependence of non-dimensional reflection R(t), absorption A(t) and transmission T(t) of a symmetrical light pulse have been obtained. It has been shown that the singularities of three types exist on the dependencies R(t), A(t), T(t). The oscillating time dependence of R(t), A(t), T(t) on the detuning frequency ω=ωl-ω0 takes place. The oscillations are more easily observable when ωγl. The positions of the total absorption, reflection and transparency singularities are examined when the frequency ωl is detuned.
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