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Paper detail

Engineering a thermal squeezed reservoir by system energy modulation

We show that a thermal reservoir can effectively act as a squeezed reservoir on atoms that are subject to energy-level modulation. For sufficiently fast and strong modulation, for which the rotating-wave-approximation is broken, the resulting squeezing persists at long times. These effects are analyzed by a master equation that is valid beyond the rotating wave approximation. As an example we consider a two-level-atom in a cavity with Lorentzian linewidth, subject to sinusoidal energy modulation. A possible realization of these effects is discussed for Rydberg atoms.

preprint2013arXivOpen access
Ephraim ShahmoonGershon Kurizki
physics.atom-phphysics.opticsquant-ph
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Ephraim ShahmoonGershon Kurizki

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