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Journal of Modern Optics Volume 65, 2018 - Issue 13
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Articles

Quantifying quantumness of correlations using Gaussian Rényi-2 entropy in optomechanical interfaces

J. El QarsFaculty of Sciences, LPHE-MS, Mohammed V University of Rabat, Rabat, Morocco.Correspondence[email protected]
,
M. DaoudAbdus Salam International Centre for Theoretical Physics, Trieste, Italy.;Faculty of Sciences, Department of Physics, University Hassan II, Casablanca, Morocco.
&
R. Ahl LaamaraFaculty of Sciences, LPHE-MS, Mohammed V University of Rabat, Rabat, Morocco.;Centre of Physics and Mathematics (CPM), Mohammed V University of Rabat, Rabat, Morocco.
Pages 1584-1594 | Received 21 Oct 2017, Accepted 10 Mar 2018, Published online: 04 Apr 2018
 
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Abstract

Using the Gaussian Rényi-2 entropy, we analyse the behaviour of two different aspects of quantum correlations (entanglement and quantum discord) in two optomechanical subsystems (optical and mechanical). We work in the resolved sideband and weak coupling regimes. In experimentally accessible parameters, we show that it is possible to create entanglement and quantum discord in the considered subsystems by quantum fluctuations transfer from either light to light or light to matter. We find that both mechanical and optical entanglement are strongly sensitive to thermal noises. In particular, we find that the mechanical one is more affected by thermal effects than that optical. Finally, we reveal that under thermal noises, the discord associated with the entangled state decays aggressively, whereas the discord of the separable state (quantumness of correlations) exhibits a freezing behaviour, seeming to be captured over a wide range of temperature.

Notes

No potential conflict of interest was reported by the authors.

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