Quasiperiodic Floquet-Gibbs states in Rydberg atomic systems

Wilson S. Martins, Federico Carollo, Kay Brandner, Igor Lesanovsky
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Abstract

Open systems that are weakly coupled to a thermal environment and driven by fast, periodically oscillating fields are commonly assumed to approach an equilibrium-like steady state with respect to a truncated Floquet-Magnus Hamiltonian. Using a general argument based on Fermi's golden rule, we show that such Floquet-Gibbs states emerge naturally in periodically modulated Rydberg atomic systems, whose lab-frame Hamiltonian is a quasiperiodic function of time. Our approach applies as long as the inherent Bohr frequencies of the system, the modulation frequency and the frequency of the driving laser, which is necessary to uphold high-lying Rydberg excitations, are well separated. To corroborate our analytical results, we analyze a realistic model of up to five interacting Rydberg atoms with periodically changing detuning. We demonstrate numerically that the second-order Floquet-Gibbs state of this system is essentially indistinguishable from the steady state of the corresponding Redfield equation if the modulation and driving frequencies are sufficiently large.
雷德贝格原子系统中的准周期弗洛克-吉布斯态
人们通常假定,与热环境弱耦合并由快速周期振荡场驱动的开放系统会在截断的弗洛克特-马格努斯-哈密顿方面接近类似于平衡的稳态。利用基于费米黄金定律的一般性论证,我们证明了这种 Floquet-Gibbs 状态会在周期性调制的雷德贝格原子系统中自然出现,其实验室框架哈密顿是时间的准周期函数。只要系统的固有玻尔频率、调制频率和驱动激光的频率(维持高电平的雷德贝格激发所必需的)完全分离,我们的方法就适用。为了证实我们的分析结果,我们分析了多达五个相互作用的雷德贝格原子与周期性变化的失谐的现实模型。我们用数字证明,如果调制频率和驱动频率足够大,该系统的二阶 Floquet-Gibbs 状态与相应雷德菲尔德方程的稳定状态基本上没有区别。
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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