Dynamical fluctuations of a tracer coupled to active and passive particles

IF 2.6 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Journal of Physics Complexity Pub Date : 2022-10-11 DOI:10.1088/2632-072X/acbf1a

Ion Santra

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引用次数: 1

Abstract

We study the induced dynamics of an inertial tracer particle elastically coupled to passive or active Brownian particles. We integrate out the environment degrees of freedom to obtain the exact effective equation of the tracer—a generalized Langevin equation in both cases. In particular, we find the exact form of the dissipation kernel and effective noise experienced by the tracer and compare it with the phenomenological modeling of active baths used in previous studies. We show that the second fluctuation-dissipation relation (FDR) does not hold at early times for both cases. However, at finite times, the tracer dynamics violate (obeys) the FDR for the active (passive) environment. We calculate the linear response formulas in this regime for both cases and show that the passive medium satisfies an equilibrium fluctuation response relation, while the active medium does not—we quantify the extent of this violation explicitly. We show that though the active medium generally renders a nonequilibrium description of the tracer, an effective equilibrium picture emerges asymptotically in the small activity limit of the medium. We also calculate the mean squared velocity and mean squared displacement of the tracer and report how they vary with time.

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与主动和被动粒子耦合的示踪剂的动力学波动

我们研究了惯性示踪粒子与被动或主动布朗粒子弹性耦合的诱导动力学。对环境自由度进行积分，得到示踪剂的精确有效方程——两种情况下的广义朗之万方程。特别是，我们找到了示踪剂所经历的耗散核和有效噪声的确切形式，并将其与先前研究中使用的活动浴池的现象学模型进行了比较。我们证明了第二波动-耗散关系(FDR)在两种情况的早期都不成立。然而，在有限时间内，示踪剂动力学违反(服从)主动(被动)环境的FDR。我们计算了这两种情况下的线性响应公式，并表明被动介质满足平衡波动响应关系，而主动介质则不满足。我们明确地量化了这种违反的程度。我们表明，虽然活性介质通常呈现示踪剂的非平衡描述，但在介质的小活性极限中渐近出现有效的平衡图像。我们还计算了示踪剂的均方速度和均方位移，并报告了它们如何随时间变化。

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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