English

Pulse-noise approach for classical spin systems

Statistical Mechanics 2017-01-25 v2 Computational Physics

Abstract

For systems of classical spins interacting with the bath via damping and thermal noise, the approach is suggested to replace the white noise by a pulse noise acting at regular time intervals Δt\Delta t, within which the system evolves conservatively. The method is working well in the typical case of a small dimensionless damping constant λ\lambda and allows a considerable speed-up of computations by using high-order numerical integrators with a large time step δt\delta t (up to a fraction of the precession period), while keeping δtΔt\delta t\ll\Delta t to reduce the relative contribution of noise-related operations. In cases when precession can be discarded, δt\delta t can be increased up to a fraction of the relaxation time 1/λ\propto1/\lambda that leads to a further speed-up. This makes equilibration speed comparable with that of Metropolis Monte Carlo. The pulse-noise approach is tested on single-spin and multi-spin models.

Keywords

Cite

@article{arxiv.1610.04914,
  title  = {Pulse-noise approach for classical spin systems},
  author = {D. A. Garanin},
  journal= {arXiv preprint arXiv:1610.04914},
  year   = {2017}
}

Comments

8 pages, 7 figure captions, to be published in PRE

R2 v1 2026-06-22T16:22:20.934Z