Abstract
A well-resolved split peak at the n=2 heavy-hole exciton transition observed at low temperatures in excitation spectra is characteristic of \ensuremath{\approxeq}100-A\r{}-wide square GaAs quantum wells of high quality. Theoretical calculations using a multiband effective-mass approach demonstrate that the lower-energy component arises from transitions involving the n=1 light hole and n=2 electron. This strong transition, which is normally parity forbidden for symmetric square wells, becomes allowed due to valence-band mixing and along with the other transitions observed is quantitatively accounted for by the theory.
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