The effect of the classical driving field on the dynamics of entanglement of two qubits interacting with two dissipative cavities

Q4 Physics and Astronomy
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引用次数: 0

Abstract

In this article, we first introduce a system consisting of two dissipative cavities, in each of which there is a two-level atom. Each of the atoms is under the influence of a classical laser field, which causes the displacement of their energy levels. The correlation between two cavities is given by the field-field interaction term. We use the Gardiner-Collet model to describe the dissipation in this research. After introducing the Hamiltonian of the system, we simplify the Hamiltonian by using the Fano technique and introducing two sets of new operators. Also, with introducing the atomic bare bases, the Hamiltonian of the system will become a solvable form. Then, by using the technique of Laplace transforms, we solve the time-dependent Schrödinger equation and find the explicit form of the system's wave function at every moment of time. Having the wave function of the atom-atom system and using the concurrence criterion, we investigate the entanglement dynamics of the system in two strong and weak interaction regimes corresponding to the non-Markovian and Markovian regimes. The results show that there will be no stable state of entanglement in this system. We will also show that the classical laser field will play a constructive role in maintaining the initial entanglement as well as the generated entanglement.
经典驱动场对两个量子比特与两个耗散腔相互作用的纠缠动力学的影响
在本文中,我们首先介绍了一个由两个耗散腔组成的系统,每个耗散腔中都有一个二能级原子。每个原子都受到经典激光场的影响,这导致它们的能级发生位移。两个空腔之间的相关性由场-场相互作用项给出。本研究采用Gardiner-Collet模型来描述耗散。在引入系统的哈密顿量之后,利用Fano技术和引入两组新算子对哈密顿量进行简化。同时,随着原子裸碱的引入,系统的哈密顿量将变成可解的形式。然后,利用拉普拉斯变换的方法,求解了随时间变化的Schrödinger方程,得到了系统在每一时刻的波函数的显式形式。利用原子-原子系统的波函数,利用并发判据,研究了系统在非马尔可夫和马尔可夫两种强、弱相互作用状态下的纠缠动力学。结果表明,该系统不存在稳定的纠缠态。我们还将证明经典激光场将在维持初始纠缠以及产生的纠缠方面发挥建设性作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Iranian Journal of Physics Research
Iranian Journal of Physics Research Physics and Astronomy-Physics and Astronomy (all)
CiteScore
0.20
自引率
0.00%
发文量
0
审稿时长
30 weeks
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