基于质量的非对称通道中活性布朗粒子分离技术

IF 1.2 4区 工程技术 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
Narender Khatri
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引用次数: 0

摘要

对于在低密度介质中运动的微型和纳米潜水器,应考虑惯性效应,因为低密度介质受不规则结构的限制,会产生熵障,在这种情况下,粘性效应不再重要。在这里,我们提出了一种二维不对称通道中自推进粒子的分离机制,它导致不同质量的粒子向相反方向漂移。特别是,这种机制是基于通道结构的空间不对称性、粒子动力学固有的时间不对称性和外部静力的共同作用。这项工作与潜在的应用相关,可用于开发芯片实验室设备和分离不同质量粒子的人工通道。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mass-Based Separation of Active Brownian Particles in an Asymmetric Channel

Inertial effects should be considered for micro and nanoswimmers moving in a low-density medium confined by irregular structures that create entropic barriers, where viscous effects are no longer paramount. Here, we present a separation mechanism of self-propelled particles in a two-dimensional asymmetric channel, which leads to the drift of particles of different masses in opposite directions. In particular, this mechanism is based on the combined action of the spatial asymmetry of the channel structure, the temporal asymmetry inherent in particles dynamics and an external static force. This work is relevant for potential applications that can be found in the development of lab-on-a-chip devices and artificial channels for separating particles of different masses.

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来源期刊
Fluctuation and Noise Letters
Fluctuation and Noise Letters 工程技术-数学跨学科应用
CiteScore
2.90
自引率
22.20%
发文量
43
审稿时长
>12 weeks
期刊介绍: Fluctuation and Noise Letters (FNL) is unique. It is the only specialist journal for fluctuations and noise, and it covers that topic throughout the whole of science in a completely interdisciplinary way. High standards of refereeing and editorial judgment are guaranteed by the selection of Editors from among the leading scientists of the field. FNL places equal emphasis on both fundamental and applied science and the name "Letters" is to indicate speed of publication, rather than a limitation on the lengths of papers. The journal uses on-line submission and provides for immediate on-line publication of accepted papers. FNL is interested in interdisciplinary articles on random fluctuations, quite generally. For example: noise enhanced phenomena including stochastic resonance; 1/f noise; shot noise; fluctuation-dissipation; cardiovascular dynamics; ion channels; single molecules; neural systems; quantum fluctuations; quantum computation; classical and quantum information; statistical physics; degradation and aging phenomena; percolation systems; fluctuations in social systems; traffic; the stock market; environment and climate; etc.
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