Competing alignment and anti-alignment copying interactions suppress long-range polar order in the thermodynamic limit while producing fluctuation-induced structure in finite systems, derived exactly from the microscopic master equation via Fourier expansion and large-N methods.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
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.
citing papers explorer
-
Mesoscopic theory of flocking with alignment and anti-alignment copying
Competing alignment and anti-alignment copying interactions suppress long-range polar order in the thermodynamic limit while producing fluctuation-induced structure in finite systems, derived exactly from the microscopic master equation via Fourier expansion and large-N methods.
-
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.