论文信息 - Imposing Field Boundary Conditions in MD Simulation of Fluids: Optimal Particle Controller and Buffer Zone Feedback

Imposing Field Boundary Conditions in MD Simulation of Fluids: Optimal Particle Controller and Buffer Zone Feedback

We formulate a method for imposing continuous field boundary conditions on an MD simulation with little or no disturbance to its dynamics. Our approach combines the previously developed thermodynamic field estimator, which extracts macroscopic fields from particle data, with a novel procedure, optimal in the sense of least disturbance, for imposing prescribed continuum field boundary conditions on the atomistic system. By means of feedback control and assuming molecular chaos in fluids, that disturbance can further be eliminated entirely, thus providing an exact solution for general steady-state fluid problems, where the desired fields at the real boundary is achieved by adjusting actions in a region separated from the real boundary by a buffer zone.

[1] Barry F. Smith,et al. Domain Decomposition: Parallel Multilevel Methods for Elliptic Partial Differential Equations , 1996 .

[2] A. Patera,et al. Heterogeneous Atomistic-Continuum Representations for Dense Fluid Systems , 1997 .

[3] Sidney Yip,et al. Coupling continuum to molecular-dynamics simulation: Reflecting particle method and the field estimator , 1998 .

[4] O'Connell,et al. Molecular dynamics-continuum hybrid computations: A tool for studying complex fluid flows. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.