Non-Markovian effects in dissipative systems

ROMOPTO International Conference on Micro- to Nano- Photonics III Pub Date : 1998-07-02 DOI:10.1117/12.312679
E. Stefanescu, P. Sterian
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引用次数: 1

Abstract

In a unitary approach generally used in quantum optics, we consider Lindblad's Markovian master equation and the non- Markovian master equation of Ford, Lewis and O'Connell. We show that the second-order master equation in the hierarchy obtained from a Krylov-Bogoliubov expansion corresponds to the Born approximation. By time averaging, and neglecting the rapidly varying terms, Lindblad's master equation is obtained. With these two equations, we calculate the decay spectrum. We find that for rather low dissipated energies, only the non-Markovian master equation provides correct results. Based on the independent oscillator model of the dissipative coupling, explicit expressions of the dissipative coefficients are obtained.
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耗散系统中的非马尔可夫效应
在量子光学中常用的统一方法中,我们考虑了Lindblad的马尔可夫主方程和Ford、Lewis和O'Connell的非马尔可夫主方程。我们证明了由Krylov-Bogoliubov展开得到的层次中的二阶主方程对应于Born近似。通过时间平均,忽略快速变化项,得到Lindblad主方程。利用这两个方程,我们计算了衰变谱。我们发现,对于较低的耗散能量,只有非马尔可夫主方程能提供正确的结果。基于耗散耦合的独立振子模型,得到了耗散系数的显式表达式。
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ROMOPTO International Conference on Micro- to Nano- Photonics III
ROMOPTO International Conference on Micro- to Nano- Photonics III
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