Randomly Exact Methods
- 12 December 1986
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 234 (4782), 1356-1360
- https://doi.org/10.1126/science.234.4782.1356
Abstract
Important advances in the understanding of "random" processes have produced a variety of stochastic algorithms that offer unprecedented scope and utility in the study of physical systems. These algorithms represent a departure from the usual philosophy inherent in the study of many-body problems and have a number of significant features. Chief among these features are simplicity, weak dependence on dimensionality, and ease of transition between classical and quantum-mechanical descriptions. These methods are also readily adapted for use on massively paraliel computer architectures. These new stochastic methods represent a valuable addition to the tools available for the analysis of both equilibrium and time-dependent many-body problems.Keywords
This publication has 21 references indexed in Scilit:
- What Does It Mean to Be Random?Science, 1986
- Quantum Monte CarloScience, 1986
- Path-integral computation of the low-temperature properties of liquidPhysical Review Letters, 1986
- Simulation of quantum many-body systems by path-integral methodsPhysical Review B, 1984
- On the calculation of time correlation functions in quantum systems: Path integral techniquesa)The Journal of Chemical Physics, 1983
- Van der Waals Picture of Liquids, Solids, and Phase TransformationsScience, 1983
- Theories of the Dynamics of Inelastic and Reactive Processes at SurfacesAnnual Review of Physical Chemistry, 1980
- Structures of Molecular LiquidsAnnual Review of Physical Chemistry, 1978
- Brownian motion and chemical dynamics on solid surfacesAccounts of Chemical Research, 1977
- Stochastic Problems in Physics and AstronomyReviews of Modern Physics, 1943