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Auteurs principaux: de Souza, L., Teixeira, E. F., Viswanathan, G. M., Sollich, P., de Castro, P.
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2512.02935
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author de Souza, L.
Teixeira, E. F.
Viswanathan, G. M.
Sollich, P.
de Castro, P.
author_facet de Souza, L.
Teixeira, E. F.
Viswanathan, G. M.
Sollich, P.
de Castro, P.
contents Self-propelled particles undergoing persistent motion can accumulate either through excluded-volume interactions or through quorum sensing, where self-propulsion decreases at high local density. Using kinetic balance theory and simulations, we show that the interplay of these two mechanisms produces a reentrant, non-monotonic behavior in which clustering passes through a pronounced minimum as quorum-sensing strength or persistence time varies. Beyond a threshold quorum-sensing strength, we find long-lived transient states that retain memory of initial conditions, including kinetically arrested active gels. Although quorum sensing can mimic attractive interactions, it also acts strongly in dilute regions, producing an effective cluster bistability that is captured by our theory. Our results explain collective states observed experimentally in synthetic and biological active systems.
format Preprint
id arxiv_https___arxiv_org_abs_2512_02935
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle How Quorum Sensing Shapes Clustering in Active Matter
de Souza, L.
Teixeira, E. F.
Viswanathan, G. M.
Sollich, P.
de Castro, P.
Soft Condensed Matter
Self-propelled particles undergoing persistent motion can accumulate either through excluded-volume interactions or through quorum sensing, where self-propulsion decreases at high local density. Using kinetic balance theory and simulations, we show that the interplay of these two mechanisms produces a reentrant, non-monotonic behavior in which clustering passes through a pronounced minimum as quorum-sensing strength or persistence time varies. Beyond a threshold quorum-sensing strength, we find long-lived transient states that retain memory of initial conditions, including kinetically arrested active gels. Although quorum sensing can mimic attractive interactions, it also acts strongly in dilute regions, producing an effective cluster bistability that is captured by our theory. Our results explain collective states observed experimentally in synthetic and biological active systems.
title How Quorum Sensing Shapes Clustering in Active Matter
topic Soft Condensed Matter
url https://arxiv.org/abs/2512.02935