Wavelength Selection by Interrupted Coarsening in Reaction-Diffusion Systems
Fridtjof Brauns, Henrik Weyer, Jacob Halatek, Junghoon Yoon, Erwin Frey
Abstract
Wavelength selection in reaction-diffusion systems can be understood as a coarsening process that is interrupted by counteracting processes at certain wavelengths. We first show that coarsening in mass-conserving systems is driven by self-amplifying mass transport between neighboring high-density domains. We derive a general coarsening criterion and show that coarsening is generically uninterrupted in two-component systems that conserve mass. The theory is then generalized to study interrupted coarsening and anticoarsening due to weakly broken mass conservation, providing a general path to analyze wavelength selection in pattern formation far from equilibrium.
Topics & Concepts
WavelengthDiffusionSelection (genetic algorithm)Mass transportConservation of massDiffusion processStatistical physicsComponent (thermodynamics)Diffusion theoryPath (computing)Reaction–diffusion systemMaterials sciencePhysicsChemical physicsThermodynamicsOpticsComputer scienceEngineering physicsInnovation diffusionKnowledge managementArtificial intelligenceProgramming languageNonlinear Dynamics and Pattern FormationTheoretical and Computational PhysicsSpectroscopy and Quantum Chemical Studies