In hyperuniform active fluids, nucleation is governed by a nonequilibrium quasi-potential with nucleation probability not separating into surface and volume terms, while capillary waves exhibit breakdown of detailed balance from nonreciprocal dynamics.
Onuki,Phase transition dynamics(Cambridge Uni- versity Press, 2002)
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
cond-mat.stat-mech 2verdicts
UNVERDICTED 2representative citing papers
A driven hard-disk model reveals that conservation laws and slow glassy dynamics select among |q|KPZ, wet-|q|KPZ, and a new universality class for active-matter interfaces.
citing papers explorer
-
Hyperuniformity in active fluids reshapes nucleation and capillary-wave dynamics
In hyperuniform active fluids, nucleation is governed by a nonequilibrium quasi-potential with nucleation probability not separating into surface and volume terms, while capillary waves exhibit breakdown of detailed balance from nonreciprocal dynamics.
-
Conservation laws and slow dynamics determine the universality class of interfaces in active matter
A driven hard-disk model reveals that conservation laws and slow glassy dynamics select among |q|KPZ, wet-|q|KPZ, and a new universality class for active-matter interfaces.