In biased and soft-walled channels: Insights into transport phenomena and damped modulation.

The Journal of Chemical Physics Pub Date : 2024-04-25 DOI:10.1063/5.0195202

Wenyue Fan, Meng Hu, Lukun Feng, Xiao Luo, Yao Lu, Jing-Dong Bao

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Abstract

The motion of a particle along a channel of finite width is known to be affected by either the presence of energy barriers or changes in the bias forces along the channel direction. By using the lateral equilibrium hypothesis, we have successfully derived the effective diffusion coefficient for soft-walled channels, and the diffusion is found to be influenced by the curvature profile of the potential. A typical phenomenon of diffusion enhancement is observed under the appropriate parameter conditions. We first discovered an anomalous phenomenon of quasi-periodic enhancement of oscillations, which cannot be captured by the one-dimensional effective potential, under the combination of sub-Ohmic damping with two-dimensional restricted channels. We innovatively develop the effective potential and the formation mechanism of velocity variance under super-Ohmic and ballistic damping, and meanwhile, ergodicity is of concern. The theoretical framework of a ballistic system can be reinterpreted through the folding acceleration theory. This comprehensive analysis significantly enhances our understanding of diffusion processes in constrained geometries.

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在偏压和软壁通道中：对传输现象和阻尼调制的见解。

众所周知，粒子沿有限宽度通道的运动会受到通道方向存在的能量障碍或偏向力变化的影响。通过使用横向平衡假说，我们成功地推导出了软壁通道的有效扩散系数，并发现扩散受势能曲率曲线的影响。在适当的参数条件下，可以观察到典型的扩散增强现象。我们首次发现了在亚欧姆阻尼与二维受限通道相结合的情况下，振荡的准周期增强这一反常现象，而一维有效势无法捕捉这一现象。我们创新性地发展了超欧姆阻尼和弹道阻尼下的有效势和速度方差的形成机制，同时关注了遍历性。弹道系统的理论框架可以通过折叠加速理论重新解释。这种全面的分析极大地增强了我们对受约束几何中扩散过程的理解。

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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The Journal of Chemical Physics

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