Abstract

Kinetics of relaxation of photoluminescence from the interband transition between dimensionalquantization levels of electrons and holes in InGaAs/GaAs quantum wells as a function of their distance to an interface with Au is investigated. It is demonstrated that the photoluminescence relaxation time becomes several times shorter when the distance from the quantum well to the interface decreases to several tens of nanometers. It is established that the photoluminescence relaxation time at a shorter wavelength corresponding to a recombination transition between excited states of electrons and holes in the quantum well is shorter than that at a longer wavelength corresponding to a recombination transition between the ground states. A theoretical model explaining this phenomenon is proposed.

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