Boundary curvature induces wall accumulation in non-motile chiral active particles confined in circular geometries via tangential wall forces, as shown by simulations and hydrodynamics.
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Presents an optimal transport framework for simulating particle systems with arbitrary cell shapes and volumes that automatically handles exclusion constraints.
A mechanical model of confined active polar disks with dual alignment mechanisms produces robust collective states of high-frequency oscillations and low-frequency milling across varied conditions.
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Curvature-driven wall accumulation in chiral active particles
Boundary curvature induces wall accumulation in non-motile chiral active particles confined in circular geometries via tangential wall forces, as shown by simulations and hydrodynamics.