Quantitative sub-ballisticity of self-avoiding walk on the hexagonal lattice

Abstract

We prove quantitative sub-ballisticity for the self-avoiding walk on the hexagonal lattice. Namely, we show that with high probability a self-avoiding walk of length n does not exit a ball of radius O(n/n). Previously, only a non-quantitative o(n) bound was known from the work of Duminil-Copin and Hammond DCH13. As an important ingredient of the proof we show that at criticality the partition function of bridges of height T decays polynomially fast to 0 as T tends to infinity, which we believe to be of independent interest.

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