A thermodynamically consistent hydrodynamic theory for chemically active emulsions extends Active Model B+ and predicts microphases when effective interfacial energy is negative, plus bubbly separation and a new dynamic active filament phase under noise.
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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.
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Hydrodynamic theory of chemically active emulsions
A thermodynamically consistent hydrodynamic theory for chemically active emulsions extends Active Model B+ and predicts microphases when effective interfacial energy is negative, plus bubbly separation and a new dynamic active filament phase under noise.
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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.