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Single-orientation Crystalline Domains of Active Brownian Particles Lead to Collective Motions

Active Brownian particles, even without attractive and anisotropic inter-particle interactions, can form a high-density phase featuring structure-ordered domains as well as collective motion regions under thermal noise. However, the mechanism, particularly the relationship between the motion and structure, remains unclear. In this study, we show that the motion-correlation regions are spatially coincident with the single-orientation crystalline domains. Each domain translates or rotates as a whole due to the net active force or torque acting upon it, allowing relative motions between these crystalline domains. The particles at domain boundaries usually have the active forces pointing inward, which helps to stabilize these structure-ordered domains and their corresponding collective motion regions.

preprint2026arXivOpen access
Cheng YangQiandong DaiShun XuXin Zhou
cond-mat.soft
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Open access4 authors1 topic
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Cheng YangQiandong DaiShun XuXin Zhou

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