Wigner function and entanglement dynamics of a two-atom two-mode nonlinear Jaynes–Cummings model

Mahnaz Ghorbani; Mohammad Javad Faghihi; Hassan Safari

doi:10.1364/JOSAB.34.001884

Journal of the Optical Society of America B
Vol. 34,
Issue 9,
pp. 1884-1893
(2017)
•https://doi.org/10.1364/JOSAB.34.001884

Wigner function and entanglement dynamics of a two-atom two-mode nonlinear Jaynes–Cummings model

Mahnaz Ghorbani, Mohammad Javad Faghihi, and Hassan Safari

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Mahnaz Ghorbani, Mohammad Javad Faghihi, and Hassan Safari, "Wigner function and entanglement dynamics of a two-atom two-mode nonlinear Jaynes–Cummings model," J. Opt. Soc. Am. B 34, 1884-1893 (2017)

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Abstract

In this paper, a model in which two moving atoms interact with a two-mode field with nondegenerate two-photon transitions is studied in the presence of intensity-dependent coupling. To discuss the entanglement dynamics between subsystems as well as nonclassicality of the system, the time-dependent form of the state vector of the system is exactly obtained. The dynamics of entanglement between the atoms and the field is evaluated by the von Neumann entropy. To examine the degree of entanglement between the atoms, concurrence and negativity are obtained. Then, in order to understand the nonclassicality feature of the state vector of the system, the two-mode Wigner–Weyl quasi-probability distribution function is precisely derived. It is deduced from the numerical results that the domain and the maximum amount of the degree of entanglement and nonclassicality of the system can be appropriately tuned by suitably adopting the nonlinearity function and the field-mode structure parameters.

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Abstract

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Journal of the Optical Society of America B