Negatively Charged Excitons and Photoluminescence in Asymmetric Quantum Well

Abstract

We study photoluminescence (PL) of charged excitons (X-) in narrow asymmetric quantum wells in high magnetic fields B. The binding of all X- states strongly depends on the separation δ of electron and hole layers. The most sensitive is the ``bright'' singlet, whose binding energy decreases quickly with increasing δ even at relatively small B. As a result, the value of B at which the singlet--triplet crossing occurs in the X- spectrum also depends on δ and decreases from 35 T in a symmetric 10 nm GaAs well to 16 T for δ=0.5 nm. Since the critical values of δ at which different X- states unbind are surprisingly small compared to the well width, the observation of strongly bound X- states in an experimental PL spectrum implies virtually no layer displacement in the sample. This casts doubt on the interpretation of PL spectra of heterojunctions in terms of X- recombination.

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