A pr 2 00 3 Transfer Matrices and Partition - Function Zeros for Antiferromagnetic Potts Models III . Triangular - lattice chromatic polynomial

We study the chromatic polynomial PG(q) for m×n triangular-lattice strips of widths m ≤ 12P, 9F (with periodic or free transverse boundary conditions, respectively) and arbitrary lengths n (with free longitudinal boundary conditions). The chromatic polynomial gives the zero-temperature limit of the partition function for the q-state Potts antiferromagnet. We compute the transfer matrix for such strips in the Fortuin–Kasteleyn representation and obtain the corresponding accumulation sets of chromatic zeros in the complex q-plane in the limit n → ∞. We recompute the limiting curve obtained by Baxter in the thermodynamic limit m,n → ∞ and find new interesting features with possible physical consequences. Finally, we analyze the isolated limiting points and their relation with the Beraha numbers.