Christopher Chalhoub, Alexander Drewitz, Alexis Prévost, Pierre-François Rodriguez
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Universality classes for percolation models with long-range correlations
We consider a class of percolation models where the local occupation
variables have long-range correlations decaying as a power law $\sim r^{-a}$ at
large distances $r$, for some $0< a< d$ where $d$ is the underlying spatial
dimension. For several of these models, we present both, rigorous analytical
results and matching simulations that determine the critical exponents
characterizing the fixed point associated to their phase transition, which is
of second order. The exact values we obtain are rational functions of the two
parameters $a$ and $d$ alone, and do not depend on the specifics of the model.