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Doubly degenerate diffuse interface models of surface diffusion

Marco Salvalaglio, Axel Voigt, Steven M. Wise

2020Mathematical Methods in the Applied Sciences28 citationsDOIOpen Access PDF

Abstract

We discuss two doubly degenerate Cahn–Hilliard (DDCH) models for isotropic surface diffusion. Degeneracy is introduced in both the mobility function and a restriction function associated to the chemical potential. Our computational results suggest that the restriction functions yield more accurate approximations of surface diffusion. We consider a slight generalization of a model that has appeared before, which is non‐variational, meaning there is no clear energy that is dissipated along the solution trajectories. We also introduce a new variational and, more precisely, energy dissipative model, which can be related to the generalized non‐variational model. For both models, we use formal matched asymptotics to show the convergence to the sharp‐interface limit of surface diffusion.

Topics & Concepts

Degenerate energy levelsMathematicsIsotropyDegeneracy (biology)Dissipative systemSurface (topology)GeneralizationLimit (mathematics)Mathematical analysisConvergence (economics)Function (biology)DiffusionEnergy (signal processing)Surface energyStatistical physicsSurface diffusionDissipationClassical mechanicsYield (engineering)HomogeneousFunction spaceInterface (matter)Weak convergenceParametric surfaceSolidification and crystal growth phenomenaAdvanced Mathematical Modeling in EngineeringBlock Copolymer Self-Assembly