Abstract
We consider percolation on and on the d-dimensional discrete torus, in dimensions for the nearest-neighbour model and in dimensions for spread-out models. For we employ a wide range of techniques and previous results to prove that there exist positive constants c and C such that the slightly subcritical two-point function and one-arm probabilities satisfy
Using this, we prove that throughout the critical window the torus two-point function has a “plateau,” meaning that it decays for small x as but for large x is essentially constant and of order where V is the volume of the torus. The plateau for the two-point function leads immediately to a proof of the torus triangle condition, which is known to have many implications for the critical behaviour on the torus, and also leads to a proof that the critical values on the torus and on are separated by a multiple of . The torus triangle condition and the size of the separation of critical points have been proved previously, but our proofs are different and are direct consequences of the bound on the two-point function. In particular, we use results derived from the lace expansion on , but in contrast to previous work on high-dimensional torus percolation, we do not need or use a separate torus lace expansion.
Funding Statement
This work was carried out primarily while TH was a Senior Research Associate at the University of Cambridge, during which time he was supported by ERC starting grant 804166 (SPRS).
The work of EM and GS was supported in part by NSERC of Canada.
Citation
Tom Hutchcroft. Emmanuel Michta. Gordon Slade. "High-dimensional near-critical percolation and the torus plateau." Ann. Probab. 51 (2) 580 - 625, March 2023. https://doi.org/10.1214/22-AOP1608
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