Influence of squeezing bandwidths on resonance fluorescence |
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Authors: | G. Yeoman Stephen M. Barnett |
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Affiliation: | Department of Physics and Applied Physics, John Anderson Building , University of Strathclyde , 107 Rottenrow, Glasgow, G4 0NG, UK |
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Abstract: | Abstract We present an analytical technique for investigating the behaviour of a coherently driven atom damped by a squeezed vacuum with finite squeezing bandwidth. A master equation and analytic expressions for the fluorescent spectrum are derived for the simple case of a two-level atom exactly resonant with the frequencies of both the squeezed field and the driving field. Suitable choices of driving strength, phase and squeezing source lead to either sub-natural lincwidths of the Rabi sidebands or a sub-natural linewidth of the central spectral peak or indeed sub-natural linewidths of all three spectral peaks when squeezing bandwidths are taken into account. We also establish the remarkable result that in the strong driving regime, the width of the central peak of the fluorescent spectrum depends solely on the squeezing found at the Rabi sideband frequencies. |
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