arXiv:hep-lat/9408001 Abstract

arXiv:hep-lat/9408001Abstract References Reviews Resources

Chiral perturbation theory, finite size effects and the three-dimensional $XY$ model

Published 1994-08-01Version 1

We study finite size effects of the d=3 $XY$ model in terms of the chiral perturbation theory. We calculate by Monte Carlo simulations physical quantities which are, to order of $(1/L)^2$, uniquely determined only by two low energy constants. They are the magnetization and the helicity modulus (or the Goldstone boson decay constant) in infinite volume. We also pay a special attention to the region of the validity of the two possible expansions in the theory.

Comments: 34 pages ( 9 PS files are included. harvmac and epsf macros are needed. ), KYUSHU-HET-17, SAGA-HE-65

DOI: 10.1103/PhysRevB.51.8243

Categories: hep-lat, cond-mat

Keywords: chiral perturbation theory, goldstone boson decay constant, three-dimensional, monte carlo simulations physical quantities, study finite size effects

Tags: journal article

Related articles: Most relevant | Search more

arXiv:1312.4999 [hep-lat] (Published 2013-12-17, updated 2014-05-20)

Chiral perturbation theory for gradient flow observables

Oliver Bar, Maarten Golterman

arXiv:0804.0473 [hep-lat] (Published 2008-04-03)

Physical Results from 2+1 Flavor Domain Wall QCD and SU(2) Chiral Perturbation Theory

C. Allton et al.

arXiv:hep-lat/0311032 (Published 2003-11-21, updated 2004-02-26)

Chiral perturbation theory for lattice QCD with a twisted mass term

Gernot Münster, Christian Schmidt

arXiv Analytics