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W2035269892 startingPage "4907" @default.
W2035269892 abstract "We have studied two-photon nonlinear optical effects arising in a microcavity geometry from resonant two-photon absorption or second-harmonic generation. The transmission spectrum of the cavity is shown to depend on light intensity according to a simple two-level picture with an intensity-dependent coupling: at resonance the system exhibits a two-photon Rabi splitting. The absorption spectrum of a weak probe beam in a pumped cavity is found to strongly depend on pump intensity and detuning; the resulting effect is a sort of two-photon analogue of the usual optical Stark effect. For moderate pump intensities a two-level picture with a pump-dependent coupling can account for the main results, while at higher intensities new unexpected features show up; in particular, we predict the appearance of gain in well-determined spectral regions due to hyper-Raman processes. Finally, we have shown how the coupling coefficients appearing in our formalism can be obtained from a detailed knowledge of the material and geometrical properties of a specific system. For illustrative purposes, we have estimated the required light intensities using realistic data for a GaAs-based semiconductor microcavity." @default.
W2035269892 created "2016-06-24" @default.
W2035269892 creator A5039776049 @default.
W2035269892 creator A5086799755 @default.
W2035269892 date "1999-08-15" @default.
W2035269892 modified "2023-10-06" @default.
W2035269892 title "Two-photon Rabi splitting and optical Stark effect in semiconductor microcavities" @default.
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W2035269892 doi "https://doi.org/10.1103/physrevb.60.4907" @default.
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