J. L. Meunier, A. Morel
Published 1999-03-29Version 1
For the first order transition of the Ising model below $T_c$, Isakov has proven that the free energy possesses an essential singularity in the applied field. Such a singularity in the control parameter, anticipated by condensation theory, is believed to be a generic feature of first order transitions, but too weak to be observable. We study these issues for the temperature driven transition of the $q$ states 2D Potts model at $q>q_c=4$. Adapting the droplet model to this case, we relate its parameters to the critical properties at $q_c$ and confront the free energy to the many informations brought by previous works. The essential singularity predicted at the transition temperature leads to observable effects in numerical data. On a finite lattice, a metastability domain of temperatures is identified, which shrinks to zero in the thermodynamical limit. ~
Comments: 32 pages, 6 figures, Latex
Journal: Eur.Phys.J.B13:341-352,2000
First order transition in a three dimensional disordered system
Generalized scaling theory for critical phenomena including essential singularity and infinite dimensionality
First order transitions and multicritical points in weak itinerant ferromagnets
