Steady State in Ultrastrong Coupling Regime: Expansion and First Orders

Q1 Arts and Humanities

Quanta Pub Date : 2021-10-05 DOI:10.12743/quanta.v11i1.167

C. L. Latune

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引用次数: 5

Abstract

Understanding better the dynamics and steady states of systems strongly coupled to thermal baths is a great theoretical challenge with promising applications in several fields of quantum technologies. Among several strategies to gain access to the steady state, one consists in obtaining approximate expressions of the mean force Gibbs state, the reduced state of the global system-bath thermal state, largely credited to be the steady state. Here, we present analytical expressions of corrective terms to the ultrastrong coupling limit of the mean force Gibbs state, which has been recently derived. We find that the first order term precisely coincides with the first order correction obtained from a dynamical approach—master equation in the strong-decoherence regime. This strengthens the identification of the reduced steady state with the mean force Gibbs state. Additionally, we also compare our expressions with another recent result obtained from a high temperature expansion of the mean force Gibbs state. We observe numerically a good agreement for ultra strong coupling as well as for high temperatures. This confirms the validity of all these results. In particular, we show that, in term of coherences, all three results allow one to sketch the transition from ultrastrong coupling to weak coupling.Quanta 2022; 11: 53–71.

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超强耦合中的稳态:展开和一阶

更好地理解与热浴强耦合系统的动力学和稳态是一个巨大的理论挑战，在量子技术的几个领域有很好的应用。在获得稳定状态的几种策略中，一种是获得平均力吉布斯状态的近似表达式，吉布斯状态是全局系统浴热状态的简化状态，主要被认为是稳定状态。本文给出了最近导出的平均力吉布斯态的超强耦合极限的修正项的解析表达式。我们发现在强退相干状态下，一阶项与动态逼近-主方程的一阶修正精确重合。这加强了还原稳态与平均力吉布斯态的识别。此外，我们还将我们的表达式与最近从平均力吉布斯态的高温膨胀中得到的另一个结果进行了比较。我们在数值上观察到在超强耦合和高温下的一致性。这证实了所有这些结果的有效性。特别是，我们表明，就相干性而言，所有三个结果都允许人们描绘从超强耦合到弱耦合的过渡。广达2022;11: 53 - 71。

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

Quanta Arts and Humanities-History and Philosophy of Science

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Quanta is an open access academic journal publishing original research and review articles on foundations of quantum mechanics, mathematical physics and philosophy of science.