Disordered Yet Directed: The Emergence of Polar Flocks with Disordered Interactions

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• Thibault Bertrand (Imperial College London)
• Friday 04 October 2024, 13:45-14:15
• Seminar Room 1, Newton Institute.

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SSDW06 - Stochastic Systems in Active Matter

Flocking is a prime example of how robust collective behavior can emerge from simple interaction rules. The flocking transition has been studied extensively since the inception of the original Vicsek model. In this talk, we will introduce a novel self-propelled particle model with quenched disorder in the pairwise alignment interaction couplings akin to a spin glass model. We show that the presence of quenched disorder can promote (rather than destroy) the emergence of global polar order. In particular, we show that our model can display a flocking phase even when the majority of the interaction couplings are anti-aligning. Activity is the key ingredient to reduce frustration in the system as it allows local particle clustering combined with self-organization of the particles to favor neighborhoods with strong cooperative interactions.  Co-Authors: Eloise Lardet, Raphaël Voituriez, Silvia Grigolon Reference: E. Lardet, R. Voituriez, S. Grigolon, T. Bertrand, arXiv:2409.10768 (2024)

This talk is part of the Isaac Newton Institute Seminar Series series.

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