Boundary effects on finite-size scaling for the 5-dimensional Ising model

Abstract

High-dimensional (d 5) Ising systems have mean-field critical exponents. However, at the critical temperature the finite-size scaling of the susceptibility depends on the boundary conditions. A system with periodic boundary conditions then has L5/2. Deleting the 5L4 boundary edges we receive a system with free boundary conditions and now L2. In the present work we find that deleting the L4 boundary edges along just one direction is enough to have the scaling L2. It also appears that deleting L3 boundary edges results in an intermediate scaling, here estimated to L2.275. We also study how the energy and magnetisation distributions change when deleting boundary edges.