Enhancement of feasibility of macroscopic quantum superposition state with the quantum Rabi-Stark model |
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Authors: | Jing-Jing Wang Ming-Song Ding Li Xiong Li Zheng |
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Affiliation: | 1.Basic Courses Teaching Department, Dalian Polytechnic University, Dalian 116034, China;2.Research Institute of Photonics, Dalian Polytechnic University, Dalian 116034, China |
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Abstract: | We propose an efficient scheme to generate a macroscopical quantum superposition state with a cavity optomechanical system, which is composed of a quantum Rabi-Stark model coupling to a mechanical oscillator. In a low-energy subspace of the Rabi-Stark model, the dressed states and then the effective Hamiltonian of the system are given. Due to the coupling of the mechanical oscillator and the atom-cavity system, if the initial state of the atom-cavity system is one of the dressed states, the mechanical oscillator will evolve into a corresponding coherent state. Thus, if the initial state of the atom-cavity system is a superposition of two dressed states, a coherent state superposition of the mechanical oscillator can be generated. The quantum coherence and their distinguishable properties of the two coherent states are exhibited by Wigner distribution. We show that the Stark term can enhance significantly the feasibility and quantum coherence of the generated macroscopic quantum superposition state of the oscillator. |
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Keywords: | macroscopic quantum superposition quantum optomechanics Rabi-Stark model Wigner function quantum coherence |
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