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Reservoir engineering of a mechanical resonator: generating a macroscopic superposition state and monitoring its decoherence

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arxiv 1308.0259 v2 pith:VZREBKM5 submitted 2013-08-01 quant-ph

Reservoir engineering of a mechanical resonator: generating a macroscopic superposition state and monitoring its decoherence

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keywords resonatorstatedecoherencedissipativedrivendynamicsgeneratingmacroscopic
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A deterministic scheme for generating a macroscopic superposition state of a nanomechanical resonator is proposed. The nonclassical state is generated through a suitably engineered dissipative dynamics exploiting the optomechanical quadratic interaction with a bichromatically driven optical cavity mode. The resulting driven dissipative dynamics can be employed for monitoring and testing the decoherence processes affecting the nanomechanical resonator under controlled conditions.

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