Exciton binding energy and external-field-induced blue shift in double quantum wells

15 September 1989

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 40 (8) , 5515-5521
https://doi.org/10.1103/physrevb.40.5515

Abstract

We calculate the intersubband mixing, brought about by the Coulomb interaction of electron-hole pairs in symmetric double quantum wells. On increasing the barrier thickness the exciton binding energy at first decreases because of the extra electron-hole separation. A further increase in the barrier thickness allows the symmetric and antisymmetric electron and hole subbands to mix, thereby localizing the exciton in one of the two wells. This leads to a rise in the exciton binding energy. We find a minimum in the binding energy as a function of barrier width. Additionally, a novel blue shift in the optical transition energy is predicted for small values of the applied electric field. The mechanism for this can also be related to intersubband mixing.

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