Spin-orbit interaction and spin-charge interference in resonant Raman scattering from III-V semiconductor quantum wells - art. no. 073309

Due to the spin-orbit interaction in A(3)B(5) semiconductor quantum wells, the resonant Raman scattering amplitude from the charge density excitations (CDE) interferes with that from the spin density excitations (SDE). This s pin-charge coupling manifests itself in an asymmetry of the non-spin-flip R aman spectrum with respect to directions of circular polarizations of incid ent and scattered photons. Consequently, the difference spectrum obtained b y subtracting the spectra taken at reversed polarizations has a band in the region of single-particle spin conserving transitions. Since CDE are invol ved, Coulomb screening effects are expected to have strong influence on the intensity of this band. We have calculated the difference spectrum, taking into account the long range Coulomb interaction in the random phase approx imation. We have found that this interaction does not destroy the spin-char ge coupling. Our calculations suggest that the experimentally observed non- spin-flip band in the Raman difference spectrum of a GaAs/AlGaAs heterostru cture serves as an evidence of the CDE-SDE interference.