Universal Dynamics of a Passive Particle Driven by Brownian Motion

Abstract

We investigate the overdamped dynamics of a `passive' particle driven by nonreciprocal interaction with a `driver' Brownian particle. When the interaction between them is short-ranged, the long-time behavior of the driven particle is remarkably universal -- the mean-squared displacement (MSD) and the typical position of the driven particle exhibits the same qualitative behaviors independent of the specific form of the potential. In particular, the MSD grows as t1/2 in one dimension and t in two spatial dimensions. We compute the exact scaling functions for the position distribution in d=1 and d=2. These functions are universal when the interaction is short-ranged. For long-ranged interactions, the MSD of the driven particle grows as tφ with exponent φ depending on the tail of the potential.

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