Late-time dynamics of a three-component mass-conserving reaction-diffusion system map onto Active Model B^- with density-dependent negative interfacial tension that selects microphase separation.
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2026 2representative citing papers
Asymmetric escape-rate interactions between small and large particles produce directional stepwise cluster migration in vibrated multi-compartment granular systems.
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Active Model B$^-$ from Mass-Conserving Reaction-Diffusion Systems
Late-time dynamics of a three-component mass-conserving reaction-diffusion system map onto Active Model B^- with density-dependent negative interfacial tension that selects microphase separation.
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Directional Cluster Migration Driven by Escape-Rate Asymmetry in Multi-Compartment Granular Systems
Asymmetric escape-rate interactions between small and large particles produce directional stepwise cluster migration in vibrated multi-compartment granular systems.