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. 2000 Jan 3;84(1):187-90.
doi: 10.1103/PhysRevLett.84.187.

Bound states in optical absorption of semiconductor quantum wells containing a two-dimensional electron Gas

V Huard V  1 RT CoxK SaminadayarA ArnoultS Tatarenko
Affiliations

Bound states in optical absorption of semiconductor quantum wells containing a two-dimensional electron Gas

V Huard V et al. Phys Rev Lett. .

Abstract

The dependence of the optical absorption spectrum of a semiconductor quantum well on two-dimensional electron concentration n(e) is studied using CdTe samples. The trion peak (X-) seen at low n(e) evolves smoothly into the Fermi edge singularity at high n(e). The exciton peak (X) moves off to high energy, weakens, and disappears. The X,X- splitting is linear in n(e) and closely equal to the Fermi energy plus the trion binding energy. For Cd0.998Mn0.002Te quantum wells in a magnetic field, the X,X- splitting reflects unequal Fermi energies for M = +/-1/2 electrons. The data are explained by Hawrylak's theory of the many-body optical response including spin effects.

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