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Long-range Velocity Correlations from Active Dopants

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arxiv 2302.13131 v1 pith:H52N3APV submitted 2023-02-25 cond-mat.soft cond-mat.stat-mech

Long-range Velocity Correlations from Active Dopants

classification cond-mat.soft cond-mat.stat-mech
keywords activevelocitycorrelationsbrowniandensedopantsgeneratedlong
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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One of the most remarkable observations in dense active matter systems is the appearance of long-range velocity correlations without any explicit aligning interaction (of e.g.\ Vicsek type). Here we show that this kind of long range velocity correlation can also be generated in a dense athermal passive system by the inclusion of a very small fraction of active Brownian particles. We develop a continuum theory to explain the emergence of velocity correlations generated via such active dopants. We validate the predictions for the effects of magnitude and persistence time of the active force and the area fractions of active or passive particles using extensive Brownian dynamics simulation of a canonical active-passive mixture. Our work decouples the roles that density and activity play in generating long range velocity correlations in such exotic non-equilibrium steady states.

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