On the Kert\'esz line: Some rigorous bounds

Abstract

We study the Kert\'esz line of the q--state Potts model at (inverse) temperature β, in presence of an external magnetic field h. This line separates two regions of the phase diagram according to the existence or not of an infinite cluster in the Fortuin-Kasteleyn representation of the model. It is known that the Kert\'esz line hK (β) coincides with the line of first order phase transition for small fields when q is large enough. Here we prove that the first order phase transition implies a jump in the density of the infinite cluster, hence the Kert\'esz line remains below the line of first order phase transition. We also analyze the region of large fields and prove, using techniques of stochastic comparisons, that hK (β) equals (q - 1) - (β - βp) to the leading order, as β goes to βp = - (1 - pc) where pc is the threshold for bond percolation.