Trapping state stabilization in a micromaser with a mixed atomic beam
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Date
1997Type
Abstract
A scheme which stabilizes the trapping states in micromasers is proposed and studied. It uses an atomic beam composed of a mixture of two types of atoms. Numerical simulations based on the Monte Carlo wavefunction method show that, despite collective events, it is possible to obtain a steady-state photon number distribution limited (‘‘trapped’’) to a certain domain of the photon number space. For the one-photon trapping condition this steady state approaches a Fock state in the limit of low cav ...
A scheme which stabilizes the trapping states in micromasers is proposed and studied. It uses an atomic beam composed of a mixture of two types of atoms. Numerical simulations based on the Monte Carlo wavefunction method show that, despite collective events, it is possible to obtain a steady-state photon number distribution limited (‘‘trapped’’) to a certain domain of the photon number space. For the one-photon trapping condition this steady state approaches a Fock state in the limit of low cavity losses. ...
In
Physical review. A, Atomic, molecular, and optical physics. New York. Vol. 55, no. 3 (Mar. 1997), p. 2304-2309
Source
Foreign
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