Lei Krauth 2017

From Werner KRAUTH

(Difference between revisions)
Jump to: navigation, search
Revision as of 09:37, 23 November 2017
Werner (Talk | contribs)

← Previous diff
Revision as of 22:46, 12 April 2018
Werner (Talk | contribs)

Next diff →
Line 1: Line 1:
-'''Z. Lei, W. Krauth''' '''''Irreversible Markov chains in spin models: Topological excitations''''' ''' arXiv:1711.08375 (2017)'''+'''Z. Lei, W. Krauth''' '''''Irreversible Markov chains in spin models: Topological excitations''''' ''' EPL, 121 10008 (2018)'''
=Paper= =Paper=

Revision as of 22:46, 12 April 2018

Z. Lei, W. Krauth Irreversible Markov chains in spin models: Topological excitations EPL, 121 10008 (2018)

Paper

Abstract We analyze the convergence of the irreversible event-chain Monte Carlo algorithm for continuous spin models in the presence of topological excitations. In the two-dimensional XY model, we show that the local nature of the Markov-chain dynamics leads to slow decay of vortex-antivortex correlations while spin waves decorrelate very quickly. Using a Frechet description of the maximum vortex-antivortex distance, we quantify the contributions of topological excitations to the equilibrium correlations, and show that they vary from a dynamical critical exponent z \sim 2 at the critical temperature to z \sim 0 in the limit of zero temperature. We confirm the event-chain algorithm's fast relaxation (corresponding to z = 0) of spin waves in the harmonic approximation to the XY model. Mixing times (describing the approach towards equilibrium from the least favorable initial state) however remain much larger than equilibrium correlation times at low temperatures. We also describe the respective influence of topological monopole-antimonopole excitations and of spin waves on the event-chain dynamics in the three-dimensional Heisenberg model.


Electronic version (from arXiv)

Personal tools