Quantum coherence and non-Markovianity of an atom in a dissipative cavity under weak measurement  

Quantum coherence and non-Markovianity of an atom in a dissipative cavity under weak measurement

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作  者:刘禹 邹红梅 方卯发 

机构地区:[1]Key Laboratory of Low-dimensional Quantum Structures and Quantum Control of Ministry of Education,College of Physics and Information Science, Hunan Normal University

出  处:《Chinese Physics B》2018年第1期258-262,共5页中国物理B(英文版)

基  金:Project supported by the Scientific Research Project of Hunan Provincial Education Department,China(Grant No.16C0949);the Hunan Provincial Innovation Foundation for Postgraduate,China(Grant No.CX2017B177);the National Natural Science Foundation of China(Grant No.11374096);the Doctoral Science Foundation of Hunan Normal University,China

摘  要:Quantum coherence and non-Markovianity of an atom in a dissipative cavity under weak measurement are investigated in this work. We find that: the quantum coherence obviously depends on the initial atomic state, the strength of the weak measurement and its reversal, the atom-cavity coupling constant and the non-Markovian effect. It is obvious that the weak measurement effect protects the coherence better. The quantum coherence is preserved more efficiently for larger atom- cavity coupling. The stronger the non-Markovian effect is, the more slowly the coherence reduces. The quantum coherence can be effectively protected by means of controlling these physical parameters.Quantum coherence and non-Markovianity of an atom in a dissipative cavity under weak measurement are investigated in this work. We find that: the quantum coherence obviously depends on the initial atomic state, the strength of the weak measurement and its reversal, the atom-cavity coupling constant and the non-Markovian effect. It is obvious that the weak measurement effect protects the coherence better. The quantum coherence is preserved more efficiently for larger atom- cavity coupling. The stronger the non-Markovian effect is, the more slowly the coherence reduces. The quantum coherence can be effectively protected by means of controlling these physical parameters.

关 键 词:quantum coherence non-Markovianty dissipative cavity 

分 类 号:O4[理学—物理]

 

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