Micromaser Revisited: Sub-Poissonian Fields from Poissonian Pumping
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概要
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We perform quantum trajectory simulations of the micromaser/laser with Poissonian pump, lifting all restriction on the number of simultaneously interacting atoms. For mean numbers of intracavity atoms between zero and two, highly sub-Poissonian fields are obtained from the Poissonian pumping, with a Mandel Q parameter inside the cavity below -0.6 under suitable conditions. Simulation of a Hanbury Brown and Twiss-type measurement performed on the cavity emissions recovers the intracavity value of the Mandel Q parameter from the intensity correlation function of the output photon stream.
- 2013-01-15
著者
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CHOUGH Young-Tak
Department of Physics, KAIST
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Carmichael Howard
Department of Physics, Auckland University, Private Bag 92019, New Zealand
関連論文
- Squeezing Enhancement by Damping in a Driven Atom-Cavity System
- Micromaser Revisited: Sub-Poissonian Fields from Poissonian Pumping