Energy, interaction, and photoluminescence of spin-reversed quasielectrons in fractional quantum Hall systems

Abstract

The energy and photoluminescence spectra of a two-dimensional electron gas in the fractional quantum Hall regime are studied. The single-particle properties of reversed-spin quasielectrons (QE R's) as well as the pseudopotentials of their interaction with one another and with Laughlin quasielectrons (QE's) and quasiholes (QH's) are calculated. Based on the short-range character of the QE R--QE R and QE R--QE repulsion, the partially unpolarized incompressible states at the filling factors =411 and 513 are postulated within Haldane's hierarchy scheme. To describe photoluminescence, the family of bound h(QE R)n states of a valence hole h and n QE R's are predicted in analogy to the found earlier fractionally charged excitons hQEn. The binding energy and optical selection rules for both families are compared. The hQE R is found radiative in contrast to the dark hQE, and the h(QE R)2 is found non-radiative in contrast to the bright hQE2.

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