首页|Enhanced quantum resources via two distant atom-cavity systems under the influence of atomic dissipation
Enhanced quantum resources via two distant atom-cavity systems under the influence of atomic dissipation
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Quantum resources such as entanglement and coherence are the holy grail for modern quantum technologies.Although the unwanted environmental effects tackle quantum information processing tasks,suprisingly these key quantum resources may be protected and even enhanced by the implementation of some special hybrid open quantum systems.Here,we aim to show how a dissipative atom-cavity-system can be accomplished to generate enhanced quantum resources.To do so,we consider a couple of dissipative cavities,where each one contains two effective two-level atoms interacting with a single-mode cavity field.In practical applications,a classical laser field may be applied to drive each atomic subsystem.After driving the system,a Bell-state measurement is performed on the output of the system to quantify the entanglement and coherence.The obtained results reveal that the remote entanglement and coherence between the atoms existing inside the two distant cavities are not only enhanced,but can be stabilized,even under the action of dissipation.In contrast,the local entanglement between two atoms inside each dissipative cavity attenuates due to the presence of unwanted environmental effects.Nevertheless,the local coherence may show the same behavior as the remote coherence.Besides,the system provides the steady state entanglement in various interaction regimes,particularly in the strong atom-cavity coupling and with relatively large detuning.More interestingly,our numerical analyses demonstrate that the system may show a memory effect due to the fact that the death and revival of the entanglement take place during the interaction.Our proposed model may find potential applications for the implementation of long distance quantum networks.In particular,it facilitates the distribution of quantum resources between the nodes of large-scale quantum networks for secure communication.
remote entanglement and coherenceatomic dissipationsteady state entanglementBell-state measurement
M Setodeh Kheirabady、M K Tavassoly、M Rafeie、E Ghasemian
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Laser and Optics Group,Faculty of Physics,Yazd University,Yazd 89195-741,Iran
Department of Electrical Engineering,Faculty of Intelligent Systems Engineering and Data Science,Persian Gulf University,Bushehr,Iran
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