Christophe Dress, Werner Krauth
Published 1996-12-19Version 1
In this paper, we present a cluster algorithm for the simulation of hard spheres and related systems. In this algorithm, a copy of the configuration is rotated with respect to a randomly chosen pivot point. The two systems are then superposed, and clusters of overlapping spheres in the joint system are isolated. Each of these clusters can be ``flipped'' independently, a process which generates non-local moves in the original configuration. A generalization of this algorithm (which works perfectly well at small density) can be successfully made to work at densities around the solid-liquid transition point in the two-dimensional hard-sphere system.
Comments: 6 pages, 2 figures, Revtex
Journal: J. Phys. A: Math. Gen. L597 (1995)
Signatures of glass formation in a fluidized bed of hard spheres
Equilibrium sampling of hard spheres up to the jamming density and beyond
State equation for the three-dimentional system of "collapsing" hard spheres
