Phase switch Monte Carlo

From SklogWiki
Jump to navigation Jump to search
The printable version is no longer supported and may have rendering errors. Please update your browser bookmarks and please use the default browser print function instead.

Phase switch Monte Carlo is a general simulation approach for sampling the disjoint configuration spaces associated with coexisting phases within a single simulation. The method employs biased sampling techniques to enhance the probabilities of gateway states (in each phase) which are such that a global switch to the other phase can be implemented. Equilibrium coexistence parameters can be determined directly; statistical uncertainties prescribed transparently; and finite-size effects quantified systematically. The method is particular useful in cases where one or both of the coexisting phases is a solid.

References

  1. A. D. Bruce, N. B. Wilding, and G. J. Ackland "Free Energy of Crystalline Solids: A Lattice-Switch Monte Carlo Method", Physical Review Letters 79 pp. 3002-3005 (1997)
  2. N. B. Wilding and A. D. Bruce "Freezing by Monte Carlo Phase Switch", Physical Review Letters 85 pp. 5138-5141 (2000)
  3. Nigel B. Wilding "Phase Switch Monte Carlo", AIP Conference Proceedings 690 pp. 349-355 (2003)
  4. Alastair D. Bruce and Nigel B. Wilding "Computational Strategies for Mapping Equilibrium Phase Diagrams", Advances in Chemical Physics 127 pp. 1-64 (2003)
  5. G.C. McNeil-Watson and N.B. Wilding "Freezing line of the Lennard-Jones fluid: a Phase Switch Monte Carlo Study", Journal of Chemical Physics 124, 064504 (2006).
Retrieved from "http://www.sklogwiki.org/SklogWiki/index.php?title=Phase_switch_Monte_Carlo&oldid=8001"