English

The second order dense ferromagnetic-ferromagnetic phase transition

Statistical Mechanics 2010-12-02 v1

Abstract

The fcc spin-1 Ising (BEG) model has a dense ferromagnetic (dfdf) ground state instead of the ferromagnetic ground state at low temperature region and exhibits the dense ferromagnetic (dfdf) - ferromagnetic (FF) phase transition for d=D/J=2.9d=D/J=2.9, k=K/J=0.5k=K/J=-0.5, =L/J=0\ell =L/J=0 and h=H/J=0h=H/J=0. The critical behavior of the dense ferromagnetic (dfdf) - ferromagnetic (FF) phase transition has been investigated using the cellular automaton cooling and heating algorithms. The universality class and the type of the dense ferromagnetic (dfdf) - ferromagnetic (FF) phase transition have been researched within the framework of the finite - size scaling, the power law relations and the probability distribution. The results show that the dense ferromagnetic- ferromagnetic phase transition is of the second order and the model shows universal second order Ising critical behavior at d=2.9d=2.9 parameter value through k=0.5k=-0.5 line.

Keywords

Cite

@article{arxiv.1012.0195,
  title  = {The second order dense ferromagnetic-ferromagnetic phase transition},
  author = {Aycan Ozkan and Bulent Kutlu},
  journal= {arXiv preprint arXiv:1012.0195},
  year   = {2010}
}

Comments

24 pages, 18 figures

R2 v1 2026-06-21T16:51:52.362Z