Brownian dynamics simulations of active particles in a 2D pillar lattice show wake accumulation, upstream polarization, and kinematic topological defects that mark a transition in swimming directions with increasing flow strength.
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cond-mat.soft 2years
2026 2verdicts
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Bacterial populations exhibit active gas, liquid, glass, and liquid crystal phases that differ from equilibrium thermal counterparts, with implications for physics and biology.
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Pore-scale distribution and transport of active particles in a two-dimensional lattice
Brownian dynamics simulations of active particles in a 2D pillar lattice show wake accumulation, upstream polarization, and kinematic topological defects that mark a transition in swimming directions with increasing flow strength.
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Various phases of active matter emerging from bacteria and their implications
Bacterial populations exhibit active gas, liquid, glass, and liquid crystal phases that differ from equilibrium thermal counterparts, with implications for physics and biology.