Ground-state clusters of two-, three- and four-dimensional +-J Ising spin glasses

Abstract

A huge number of independent true ground-state configurations is calculated for two-, three- and four-dimensional +- J spin-glass models. Using the genetic cluster-exact approximation method, system sizes up to N=202,83,64 spins are treated. A ``ballistic-search'' algorithm is applied which allows even for large system sizes to identify clusters of ground states which are connected by chains of zero-energy flips of spins. The number of clusters nC diverges with N going to infinity. For all dimensions considered here, an exponential increase of nC appears to be more likely than a growth with a power of N. The number of different ground states is found to grow clearly exponentially with N. A zero-temperature entropy per spin of s0=0.078(5)kB (2d), s0=0.051(3)kB (3d) respectively s0=0.027(5)kB (4d) is obtained.

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