Shape anisotropy governs organization of active rods: Swarming, turbulence, flocking, and jamming
Yogesh Shelke, Anpuj Nair S, Hanumantha Vutukuri (2026) Shape anisotropy governs organization of active rods: Swarming, turbulence, flocking, and jamming Science (IF: 45.8) 392(6794) 202-206Abstract
Shape anisotropy of individual building blocks plays a crucial role in creating exotic structures and controlling phase behavior in equilibrium systems. We present a combined experimental and simulation study in which we used light-driven self-propelled rods to investigate when and how shape-induced alignment and steric and hydrodynamic interactions govern self-organization. Varying rod aspect ratio and area fraction causes the system to evolve from active Brownian motion to swarming, active turbulence, flocking, large clusters, and jamming. A state diagram summarizes emergent behaviors, and spatiotemporal analyses reveal distinct giant-number fluctuations across states. This minimal model offers insight into the self-organization of biological rodlike microswimmers, enabling the decoupling of physical from biological mechanisms. Our results provide design rules for programmable synthetic active materials and highlight parallels with bacterial swarms and other biological assemblies.
Links
http://www.ncbi.nlm.nih.gov/pubmed/41955368http://dx.doi.org/10.1126/science.ady7618
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