English

Constant-temperature molecular-dynamics algorithms for mixed hard-core/continuous potentials

Chemical Physics 2009-11-07 v1 Fluid Dynamics

Abstract

We present a set of second-order, time-reversible algorithms for the isothermal (NVT) molecular-dynamics (MD) simulation of systems with mixed hard-core/continuous potentials. The methods are generated by combining real-time Nose' thermostats with our previously developed Collision Verlet algorithm [Mol. Phys. 98, 309 (1999)] for constant energy MD simulation of such systems. In all we present 5 methods, one based on the Nose'-Hoover [Phys. Rev. A 31, 1695 (1985)] equations of motion and four based on the Nose'-Poincare' [J.Comp.Phys., 151 114 (1999)] real-time formulation of Nose' dynamics. The methods are tested using a system of hard spheres with attractive tails and all correctly reproduce a canonical distribution of instantaneous temperature. The Nose'-Hoover based method and two of the Nose'-Poincare' methods are shown to have good energy conservation in long simulations.

Keywords

Cite

@article{arxiv.physics/0204028,
  title  = {Constant-temperature molecular-dynamics algorithms for mixed hard-core/continuous potentials},
  author = {Yao A. Houndonougbo and Brian B. Laird},
  journal= {arXiv preprint arXiv:physics/0204028},
  year   = {2009}
}

Comments

9 pages, 5 figures