Abstract
The absorption, transmission and reflection properties of two incident probe and signal pulses through a defect slab doped with four-level GaAs/AlGaAs multiple quantum wells with 15 periods of 17.5 nm GaAs wells and 15 nm Al0.3 Ga0.7 as barriers is theoretically discussed. It is shown that the biexciton coherence leads to the phase control of the absorption, transmission and reflection properties of two weak probe and signal beams. We will also show that the exciton spin relaxation between excitonic states can affect the slow and fast light propagation of transmitted and reflected pulses with amplification in a defect slab with dispersive material. Our results show that many particle interactions due to Coulomb correlations in semiconductors can lead to the controlling of light propagation through the defect dielectric medium.
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