Coarsening in an integro-differential model of phase transitions

DUGALD B. DUNCAN; MICHAEL GRINFELD; IULIAN STOLERIU

doi:10.1017/S0956792500004319

Abstract

Coarsening of solutions of the integro-differential equation

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where Ω ⊂ ℝn, J(·) [ges ] 0, ε > 0 and f(u) = u3 − u (or similar bistable nonlinear term), is examined, and compared with results for the Allen–Cahn partial differential equation. Both equations are used as models of solid phase transitions. In particular, it is shown that when ε is small enough, solutions of this integro-differential equation do not coarsen, in contrast to those of the Allen–Cahn equation. The special case J(·) ≡ 1 is explored in detail, giving insight into the behaviour in the more general case J(·) [ges ] 0. Also, a numerical approximation method is outlined and used on tests in both one- and two-space dimensions to verify and illustrate the main result.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Shen, W. and Vickers, G.T. 2007. Spectral theory for general nonautonomous/random dispersal evolution operators. Journal of Differential Equations, Vol. 235, Issue. 1, p. 262.

Hutson, V. Shen, W. and Vickers, G.T. 2008. Spectral Theory for Nonlocal Dispersal with Periodic or Almost-Periodic Time Dependence. Rocky Mountain Journal of Mathematics, Vol. 38, Issue. 4,

Bhowmik, Samir Kumar 2010. Stable numerical schemes for a partly convolutional partial integro-differential equation. Applied Mathematics and Computation, Vol. 217, Issue. 8, p. 4217.

BURNS, M. and GRINFELD, M. 2011. Steady state solutions of a bi-stable quasi-linear equation with saturating flux. European Journal of Applied Mathematics, Vol. 22, Issue. 4, p. 317.

K. Bhowmik, Samir B. Duncan, Dugald Grinfeld, Michael and J. Lord, Gabriel 2011. Finite to infinite steady state solutions, bifurcations of an integro-differential equation. Discrete & Continuous Dynamical Systems - B, Vol. 16, Issue. 1, p. 57.

Bhowmik, Samir Kumar 2011. Stability and convergence analysis of a one step approximation of a linear partial integro-differential equation. Numerical Methods for Partial Differential Equations, Vol. 27, Issue. 5, p. 1179.

Bhowmik, Samir Kumar 2011. Numerical approximation of a convolution model of -neuron networks. Applied Numerical Mathematics, Vol. 61, Issue. 4, p. 581.

Stoleriu, Iulian 2011. Non-Coarsening for Solutions to a Class of Evolution Equations. Annals of the Alexandru Ioan Cuza University - Mathematics, Vol. 57, Issue. Supliment,

Bhowmik, Samir Kumar 2012. Numerical convergence of a one step approximation of an integro-differential equation. Applied Numerical Mathematics, Vol. 62, Issue. 12, p. 1880.

Seleson, Pablo Gunzburger, Max and Parks, Michael L. 2013. Interface problems in nonlocal diffusion and sharp transitions between local and nonlocal domains. Computer Methods in Applied Mechanics and Engineering, Vol. 266, Issue. , p. 185.

Bhowmik, Samir Kumar 2014. Fast and efficient numerical methods for an extended Black–Scholes model. Computers & Mathematics with Applications, Vol. 67, Issue. 3, p. 636.

Bhowmik, Samir Kumar 2014. Piecewise polynomial approximation of a nonlocal phase transitions model. Journal of Mathematical Analysis and Applications, Vol. 420, Issue. 2, p. 1069.

Ververis, Antonios and Schmuck, Markus 2017. Computational investigation of porous media phase field formulations: Microscopic, effective macroscopic, and Langevin equations. Journal of Computational Physics, Vol. 344, Issue. , p. 485.

Burger, Martin 2021. Network Structured Kinetic Models of Social Interactions. Vietnam Journal of Mathematics, Vol. 49, Issue. 3, p. 937.

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Coarsening in an integro-differential model of phase transitions

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