IOPscience

Reports on Progress in Physics

Quick search Find article
Quick search
Find article
Reports on Progress in Physics Volume 60 Number 5 Create an alert RSS this journal

K Binder 1997 Rep. Prog. Phys. 60 487 doi:10.1088/0034-4885/60/5/001

Applications of Monte Carlo methods to statistical physics

REVIEW ARTICLE

K Binder

Show affiliations

Tag this article Full text PDF (729 KB)

Abstract References Cited By

An introductory review of the Monte Carlo method for the statistical mechanics of condensed matter systems is given. Basic principles (random number generation, simple sampling versus importance sampling, Markov chains and master equations, etc) are explained and some classical applications (self-avoiding walks, percolation, the Ising model) are sketched. The finite-size scaling analysis of both second- and first-order phase transitions is described in detail, and also the study of surface and interfacial phenomena as well as the choice of appropriate boundary conditions is discussed. Only brief comments are given on topics such as applications to dynamic phenomena, quantum problems, and recent algorithmic developments (new sampling schemes based on reweighting techniques, nonlocal updating, parallelization, etc). The techniques described are exemplified with many illustrative applications.


PACS

05.10.Ln Monte Carlo methods

75.60.Ej Magnetization curves, hysteresis, Barkhausen and related effects

75.10.Hk Classical spin models

64.60.A- Specific approaches applied to studies of phase transitions

75.40.-s Critical-point effects, specific heats, short-range order

75.30.Cr Saturation moments and magnetic susceptibilities

Subjects

Computational physics

Condensed matter: electrical, magnetic and optical

Condensed matter: structural, mechanical & thermal

Statistical physics and nonlinear systems

Dates

Issue 5 (May 1997)

Received 3 December 1996



Your last 10 viewed
  1. Applications of Monte Carlo methods to statistical physics

    K Binder 1997 Rep. Prog. Phys. 60 487

  2. Structure and parametrization of stochastic maps of density matrices

    E C G Sudarshan and Anil Shaji 2003 J. Phys. A: Math. Gen. 36 5073

  3. String theory and quantum chromodynamics

    David Mateos 2007 Class. Quantum Grav. 24 S713

  4. Phase stabilization of ultrashort optical pulses

    Steven T Cundiff 2002 J. Phys. D: Appl. Phys. 35 R43

  5. The 'unromantic pictures' of quantum theory

    Roderich Tumulka 2007 J. Phys. A: Math. Theor. 40 3245

  6. The most general axially symmetric electrovac spacetime admitting separable equations of motion

    Naresh Dadhich and Z Ya Turakulov 2002 Class. Quantum Grav. 19 2765

  7. On the nonradiating motion of point charges

    Massimo Marino 2008 J. Phys. A: Math. Theor. 41 335401

  8. Implementation of standard testbeds for numerical relativity

    M C Babiuc et al 2008 Class. Quantum Grav. 25 125012

  9. Constraints on supersymmetric grand unified theories from cosmology

    Jonathan Rocher and Mairi Sakellariadou JCAP03(2005)004

  10. Finding apparent horizons and other 2-surfaces of constant expansion

    Erik Schnetter 2003 Class. Quantum Grav. 20 4719

Users also read

What's this?
This innovative new feature generates a list of articles 'also read' by other users based on them reading the original article. Article abstracts citations and references are all considered and weighted accordingly. We hope that this will help you find relevant papers for your research.

  1. Theory of semiconductor surface reconstruction
  2. Applications of quantum Monte Carlo methods in condensed systems
  3. Theory of first-order phase transitions

Share

View by subject




Export








Please login to access our web services, or create an account if you don't yet have one.

You must have cookies enabled in your web browser to be able to login.

Username
Password

Forgotten your password? Get a new one here.