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W2246943532 abstract "We examine the mobility and velocity fluctuations of a driven particle moving through an active matter bath of self-mobile disks for varied density or area coverage and varied activity. We show that the driven particle mobility can exhibit non-monotonic behavior that is correlated with distinct changes in the spatial-temporal structures that arise in the active media. We demonstrate that the probe particle velocity distributions exhibit specific features in the different dynamic regimes, and identify an activity-induced uniform crystallization that occurs for moderate activity levels and that is distinct from the previously observed higher activity cluster phase. The velocity distribution in the cluster phase has telegraph noise characteristics produced when the probe particle moves alternately through high mobility areas that are in the gas state and low mobility areas that are in the dense phase. For higher densities and large activities, the system enters what we characterize as an active jamming regime. Here the probe particle moves in intermittent jumps or avalanches which how power-law distributed sizes that are similar to the avalanche distributions observed for non-active disk systems near the jamming transition." @default.
W2246943532 created "2016-06-24" @default.
W2246943532 creator A5004656486 @default.
W2246943532 date "2015-03-25" @default.
W2246943532 modified "2023-10-16" @default.
W2246943532 title "Active microrheology in active matter systems: Mobility, intermittency, and avalanches" @default.
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W2246943532 doi "https://doi.org/10.1103/physreve.91.032313" @default.
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