Bounds on the distance exponent for higher-dimensional Liouville first passage percolation

Abstract

For ≥ 0 and d ≥ 3, the higher-dimensional Liouville first passage percolation (LFPP) is a random metric on ε Zd obtained by reweighting each vertex by e hε(x), where hε(x) is a continuous mollification of the whole-space log-correlated Gaussian field. This metric generalizes the two-dimensional LFPP, which is related to Liouville quantum gravity. We derive several estimates for the set-to-set distance exponent of this metric, including upper and lower bounds and bounds on its derivative with respect to . In the subcritical region for , we derive estimates for the fractal dimension and show that it is continuous and strictly increasing with respect to . In particular, our result is an important step towards proving a technical assumption made in previous work by the first author and Gwynne. These are also the first bounds on the distance exponent for LFPP in higher dimensions.

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