Single-file diffusion of active Brownian particles

微尺度化学 布朗运动 压缩性 均方位移 扩散 物理 统计物理学 动能 活性物质 粒子(生态学) 经典力学 反常扩散 缩放比例 工作(物理) 机械 热力学 数学 分子动力学 量子力学 计算机科学 知识管理 海洋学 数学教育 创新扩散 几何学 生物 地质学 细胞生物学
作者
Abosede Adeola Akintunde,Parvin Bayati,Hyeongjoo Row,Stewart A. Mallory
出处
期刊:Journal of Chemical Physics [American Institute of Physics]
卷期号:162 (16) 被引量:3
标识
DOI:10.1063/5.0248772
摘要

Single-file diffusion (SFD) is a key mechanism underlying transport phenomena in confined physical and biological systems. In a typical SFD process, microscopic particles are restricted to moving in a narrow channel where they cannot pass one another, resulting in constrained motion and anomalous long-time diffusion. In this study, we use Brownian dynamics simulations and analytical theory to investigate the SFD of athermal active Brownian particles (ABPs)—a minimal model of active colloids. Building on prior work [Schiltz-Rouse et al., Phys. Rev. E 108, 064601 (2023)], where the kinetic temperature, pressure, and compressibility of the single-file ABP system were derived, we develop an accurate analytical expression for the mean square displacement (MSD) of a tagged particle. We find that the MSD exhibits ballistic behavior at short times, governed by the reduced kinetic temperature of the system. At long times, the characteristic subdiffusive scaling of SFD, [⟨(Δx)2⟩∼ t1/2], is preserved. However, self-propulsion introduces significant changes to the 1D-mobility, which we directly relate to the system’s compressibility. Furthermore, we demonstrate that the generalized 1D-mobility, originally proposed by Kollmann for equilibrium systems [M. Kollmann, Phys. Rev. Lett. 90, 180602 (2003)], can be extended to active systems with minimal modification. These findings provide a framework for understanding particle transport in active systems and for tuning transport properties at the microscale, particularly in geometries where motion is highly restricted.
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