Phys. Rev. B 81, 075307 (2010) [10 pages]Modeling excitonic line shapes in weakly disordered semiconductor nanostructuresReceived 12 October 2009; revised 21 December 2009; published 8 February 2010 Excitonic spectra of weakly disordered semiconductor heterostructures are simulated on the basis of a one-dimensional tight-binding model. The influence of the length scale of weak disorder in quantum wells on the redshift of the excitonic peak and its linewidth is studied. By calculating two-dimensional Fourier-transform spectra we are able to determine the contribution of disorder to inhomogeneous and also to homogeneous broadenings separately. This disorder-induced dephasing is related to a Fano-type coupling and leads to contributions to the homogeneous linewidth that depends on energy within the inhomogeneously broadened line. The model includes heavy- and light-hole excitons and yields smaller inhomogeneous broadening for the light-hole exciton if compared to the heavy-hole exciton, which agrees qualitatively with the experiment. © 2010 The American Physical Society URL:
http://link.aps.org/doi/10.1103/PhysRevB.81.075307
DOI:
10.1103/PhysRevB.81.075307
PACS:
78.67.-n, 71.23.An, 78.47.nj, 42.50.Md
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