论文信息 - Exciton and confinement potential effects on the resonant Raman scattering in quantum dots

Exciton and confinement potential effects on the resonant Raman scattering in quantum dots

Resonant Raman scattering in spherical semiconductor quantum dots is theoretically investigated. The Frohlich-like interaction between electronic states and optical vibrations has been considered. The Raman profiles are studied for the following intermediate electronic state models: (I) uncorrelated electron-hole pairs in the strongly size-dependent quantized regime; (II) Wannier-Mott excitons in an infinite potential well; (III) excitons in a finite confinement barrier. It is shown that the finite confinement barrier height and the electron-hole correlation determine the absolute values of the scattering intensities and substantially modify the Raman lineshape, even in the strong confinement regime.

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