Active Model B- from Mass-Conserving Reaction-Diffusion Systems
Abstract
We show that the late-time dynamics of a minimal three-component mass-conserving reaction--diffusion system reduce to a scalar active field theory, Active Model B- (AMB-), in which a density-dependent interfacial coefficient κ(ϕ) turns negative at high density. This drives a finite-wavelength instability and stabilises microphase-separated patterns, in contrast to the unbounded coarsening of two-component mass-conserving systems. Unlike Active Model B+, AMB- retains a chemical potential that remains a state function, inherited from the underlying conservation law, but admits no equation of state for the pressure.
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