Quasi-Monte Carlo Simulation of Diffusion

We present the results of threedimensional lattice Monte Carlo simulations of protein diffusion on the liquid-solid interface in a wide temperature range including the most interesting temperatures (from slightly below T f and up to T c , where T f and T c are the folding and collapse temperatures).

Many important classes of problems in materials science and biotechnology require the solution of the Laplace or Poisson equation in disordered two-phase domains in which the phase interface is extensive and convoluted. Green's function first-passage (GFFP) methods solve such problems efficiently by

the effect of a single particle on macroscopic quantities is negligible, the background electromagnetic and flow fields This paper is concerned with the problem of transport in controlled nuclear fusion as it applies to confinement in a tokamak or and their profiles remain fixed. Collisions generate

Implicit Monte Carlo (IMC) is often employed to numerically simulate radiative transfer. In problems with regions that are characterized by a small mean free path, IMC can take a prohibitive amount of time, because many particle steps must be simulated to advance the particle through the time step.