Enhancement of Opto-Electro-Mechanical Entanglement through Three-Level Atoms
- URL: http://arxiv.org/abs/2406.16682v2
- Date: Thu, 17 Oct 2024 17:21:29 GMT
- Title: Enhancement of Opto-Electro-Mechanical Entanglement through Three-Level Atoms
- Authors: Abebe Senbeto Kussia, Tewodros Yirgashewa Darge, Tesfay Gebremariam Tesfahannes, Abeba Teklie Bimeraw, Berihu Teklu,
- Abstract summary: We address the dynamical bipartite entanglement in an opto-electro-mechanical system that involves a three-level atom.
The research findings indicate that the entanglement between each subsystem increases with the atom injection rate.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We address the dynamical bipartite entanglement in an opto-electro-mechanical system that involves a three-level atom. The system consists of a degenerate three-level atom, a mechanical resonator, an optical cavity, and a microwave cavity. By utilizing the linearization approximation and nonlinear quantum-Langevin equations, the dynamics of the system are analyzed, and the bipartite entanglement is evaluated using the logarithmic negativity. The research findings indicate that the entanglement between each subsystem increases with the atom injection rate, suggesting that a higher atom injection rate leads to enhanced information transmission between the subsystems. Additionally, it is observed that the correlation between subsystems increases with an increase in the coupling rate. Moreover, the study demonstrates that the correlation between each subsystem decreases as temperature rises. We also show that the degree of tripartite entanglement diminishes with increasing atomic decay rates. The results highlight the positive impact of three-level atoms on the bipartite entanglement in an opto-electro-mechanical system. Consequently, such electro-optomechanical systems can offer a framework for optomechanical information transfer.
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