A new kinetic event-chain Monte Carlo method for active Brownian disks that reproduces motility-induced phase separation and phase diagrams more efficiently than Brownian dynamics.
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Half-circle obstacles around a central barrier reverse vortex rotation direction in dry active matter depending on whether flat or curved sides face the flow, quantified by parameter Pi_M.
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Kinetic Event-Chain Algorithm for Active Matter
A new kinetic event-chain Monte Carlo method for active Brownian disks that reproduces motility-induced phase separation and phase diagrams more efficiently than Brownian dynamics.
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Controlling Vortex Rotation in Dry Active Matter
Half-circle obstacles around a central barrier reverse vortex rotation direction in dry active matter depending on whether flat or curved sides face the flow, quantified by parameter Pi_M.