Site and bond percolation on four-dimensional simple hypercubic lattices with extended neighborhoods

Abstract

The asymptotic behavior of the percolation threshold pc and its dependence upon coordination number z is investigated for both site and bond percolation on four-dimensional lattices with compact extended neighborhoods. Simple hypercubic lattices with neighborhoods up to 9th nearest neighbors are studied to high precision by means of Monte-Carlo simulations based upon a single-cluster growth algorithm. For site percolation, an asymptotic analysis confirms the predicted behavior zpc 16 ηc = 2.086 for large z, and finite-size corrections are accounted for by forms pc 16 ηc/(z+b) and pc 1- (-16 ηc/z) where ηc ≈ 0.1304 is the continuum percolation threshold of four-dimensional hyperspheres. For bond percolation, the finite-z correction is found to be consistent with the prediction of Frei and Perkins, zpc - 1 a1 ( z)/z, although the behavior zpc - 1 a1 z-3/4 cannot be ruled out.