RT Journal Article ID 5d0f83ac0f1e5eaf A1 Tello, J. S. A1 Curtin, William A. T1 A Coupled Discrete/Continuum Model for Multiscale Diffusion JF International Journal for Multiscale Computational Engineering JO JMC YR 2005 FD 2005-09-09 VO 3 IS 3 SP 257 OP 266 AB A method is developed to model continuum (finite element) and discrete [kinetic Monte Carlo (kMC)] diffusion occurring simultaneously in connected regions of space. The two regions are coupled across an interface using an iterative domain-decomposition approach in which time-dependent boundary conditions are applied on the kMC region (concentration) and on the continuum region (flux). Evolving forward in small time increments permits iterations in the kMC region to be performed only in a narrow band near the interface. An on-the-fly convergence criterion based on the inherent fluctuations in the discrete problem is developed. Application to the decay of a Gaussian concentration profile demonstrates the accuracy and efficiency of the method. Generalizations to more complex problems in two and three dimensions, and with spatially varying diffusivity due to interactions or applied stress fields, are straightforward. PB Begell House LK https://www.dl.begellhouse.com/journals/61fd1b191cf7e96f,2e469c014728a861,5d0f83ac0f1e5eaf.html