Resonance Fluorescence of a Driven Two-level Atom in a Cavity with Injected Squeezed Vacuum: Effect of the Cavity
نویسندگان
چکیده
We derive, in the bad cavity limit, an eeective master equation for the reduced density matrix operator of a strongly driven atom coupled to a frequency-tunable cavity and damped by a squeezed vacuum. We nd that the intensity, the resonance uorescence spectrum and the photon-photon correlation of such an atom, emitted from the cavity, are strongly dependent upon the cavity resonance frequency and squeezing parameters. The enhancement and suppression of the u-orescence intensity and spectral peaks, spectral-line narrowing, and antibunching in uorescence can be achieved in a prescribed manner by tuning the cavity and laser frequency, and by adjusting the squeezed photon number and phase.
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