Ground State Entropy of the Potts Antiferromagnet on Cyclic Strip Graphs

Abstract

We present exact calculations of the zero-temperature partition function (chromatic polynomial) and the (exponent of the) ground-state entropy S0 for the q-state Potts antiferromagnet on families of cyclic and twisted cyclic (M\"obius) strip graphs composed of p-sided polygons. Our results suggest a general rule concerning the maximal region in the complex q plane to which one can analytically continue from the physical interval where S0 > 0. The chromatic zeros and their accumulation set B exhibit the rather unusual property of including support for Re(q) < 0 and provide further evidence for a relevant conjecture.

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