English

Effective exponents near bicritical points

Statistical Mechanics 2023-05-23 v2

Abstract

The phase diagram of a system with two order parameters, with n1{\it n_1} and n2n_2 components, respectively, contains two phases, in which these order parameters are non-zero. Experimentally and numerically, these phases are often separated by a first-order "flop" line, which ends at a bicritical point. For n=n1+n2=3n=n_1+n_2=3 and d=3d=3 dimensions (relevant e.g. to the uniaxial antiferromagnet in a uniform magnetic field), this bicritical point is found to exhibit a crossover from the isotropic nn-component universal critical behavior to a fluctuation-driven first-order transition, asymptotically turning into a triple point. Using a novel expansion of the renormalization group recursion relations near the isotropic fixed point, combined with a resummation of the sixth-order diagrammatic expansions of the coefficients in this expansion, we show that the above crossover is slow, explaining the apparently observed second-order transition. However, the effective critical exponents near that transition, which are calculated here, vary strongly as the triple point is approached.

Keywords

Cite

@article{arxiv.2304.08265,
  title  = {Effective exponents near bicritical points},
  author = {A. Kudlis and A. Aharony and O. Entin-Wohlman},
  journal= {arXiv preprint arXiv:2304.08265},
  year   = {2023}
}
R2 v1 2026-06-28T10:08:20.173Z