Theory of polariton-electron interactions in semiconductor microcavities

Abstract: We develop a microscopic description of an electron-doped two-dimensional semiconductor embedded in a microcavity. Specifically, we investigate the interactions between exciton-polaritons and electrons for the case where the interactions between charges are strongly screened and the system is spin polarized. As a starting point, we obtain an analytic expression for the exciton-polariton wave function, and we relate the microscopic parameters of the light-matter system to experimentally measurable quantities, s… Show more

“…This is due to the Rabi splitting of the polariton modes and the extremely small photon mass; and therefore, can be seen as a remarkable consequence of the strong light-matter coupling [27]. We note that a similar enhancement of polariton-electron interaction has been found recently within a microscopic theory involving electrons, holes, and photons [54,55]. We also stress that such an enhancement is absent in approaches based on the Born approximation [56,57].…”

Interplay between polarization and quantum correlations of confined polaritons

“…This is due to the Rabi splitting of the polariton modes and the extremely small photon mass; and therefore, can be seen as a remarkable consequence of the strong light-matter coupling [27]. We note that a similar enhancement of polariton-electron interaction has been found recently within a microscopic theory involving electrons, holes, and photons [54,55]. We also stress that such an enhancement is absent in approaches based on the Born approximation [56,57].…”

Interplay between polarization and quantum correlations of confined polaritons