Coarse-grained stochastic processes and kinetic Monte Carlo simulators for the diffusion of interacting particles
Publication Date
2003
Journal or Book Title
JOURNAL OF CHEMICAL PHYSICS
Abstract
We derive a hierarchy of successively coarse-grained stochastic processes and associated coarse-grained Monte Carlo (CGMC) algorithms directly from the microscopic processes as approximations in larger length scales for the case of diffusion of interacting particles on a lattice. This hierarchy of models spans length scales between microscopic and mesoscopic, satisfies a detailed balance, and gives self-consistent fluctuation mechanisms whose noise is asymptotically identical to the microscopic MC. Rigorous, detailed asymptotics justify and clarify these connections. Gradient continuous time microscopic MC and CGMC simulations are compared under far from equilibrium conditions to illustrate the validity of our theory and delineate the errors obtained by rigorous asymptotics. Information theory estimates are employed for the first time to provide rigorous error estimates between the solutions of microscopic MC and CGMC, describing the loss of information during the coarse-graining process. Simulations under periodic boundary conditions are used to verify the information theory error estimates. It is shown that coarse-graining in space leads also to coarse-graining in time by q2, where q is the level of coarse-graining, and overcomes in part the hydrodynamic slowdown. Operation counting and CGMC simulations demonstrate significant CPU savings in continuous time MC simulations that vary from q3 for short potentials to q4 for long potentials. Finally, connections of the new coarse-grained stochastic processes to stochastic mesoscopic and Cahn-Hilliard-Cook models are made.
Pages
9412-9427
Volume
119
Issue
18
Recommended Citation
Katsoulakis, MA and Vlachos, DG, "Coarse-grained stochastic processes and kinetic Monte Carlo simulators for the diffusion of interacting particles" (2003). JOURNAL OF CHEMICAL PHYSICS. 460.
Retrieved from https://scholarworks.umass.edu/math_faculty_pubs/460
Comments
The published version is located at http://cat.inist.fr/?aModele=afficheN&cpsidt=15256757