Optimizing hyperuniformity and local ordering without changing particle diameters produces no stability gain, showing that diameter dynamics drives ultrastability rather than the optimized quantities.
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cond-mat.stat-mech 2years
2026 2verdicts
UNVERDICTED 2roles
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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.
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Identifying the relevant parameters in design strategies for stable glasses
Optimizing hyperuniformity and local ordering without changing particle diameters produces no stability gain, showing that diameter dynamics drives ultrastability rather than the optimized quantities.
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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.