Growth of Mahler Measure and Algebraic Entropy of Dynamics with the Laurent Property We consider the growth rate of the Mahler measure in discrete dynamical systems with the Laurent property, and in cluster algebras, and compare this with other measures of growth. In particular, we formulate the conjecture that the growth rate of the logarithmic Mahler measure coincides with the algebraic entropy, which is defined in terms of degree growth. Evidence for this conjecture is provided by exact and numerical calculations of the Mahler measure for a family of Laurent polynomials generated by rank 2 cluster algebras, for a recurrence of third order related to the Markoff numbers, and for the Somos-4 recurrence. Also, for the sequence of Laurent polynomials associated with the Kronecker quiver (the cluster algebra of affine type \tilde{A}_1 we prove a precise formula for the leading order asymptotics of the logarithmic Mahler measure, which grows linearly.

"Growth of Mahler Measure and Algebraic Entropy of Dynamics with the Laurent Property" by Andrew N. W. Hone. #ExperimentalMath #ClusterAlgebra #MathSky

Ah. That's how you do the #combinatorics without #clusteralgebra to show that the #markovsnakegraphs (themselves constructed iteratively according to strict rules, in this approach) always have #perfectmatching counts equal to #MarkovNumbers.