The s=1/2 Antiferromagnetic Heisenberg Model on Fullerene-Type Symmetry Clusters
Abstract
The si=1/2 nearest neighbor antiferromagnetic Heisenberg model is considered for spins sitting on the vertices of clusters with the connectivity of fullerene molecules and a number of sites n ranging from 24 to 32. Using the permutational and spin inversion symmetries of the Hamiltonian the low energy spectrum is calculated for all the irreducible representations of the symmetry group of each cluster. Frustration and connectivity result in non-trivial low energy properties, with the lowest excited states being singlets except for n=28. Same hexagon and same pentagon correlations are the most effective in the minimization of the energy, with the n=32-D3h symmetry cluster having an unusually strong singlet intra-pentagon correlation. The magnetization in a field shows no discontinuities unlike the icosahedral Ih fullerene clusters, but only plateaux with the most pronounced for n=28. The spatial symmetry as well as the connectivity of the clusters appear to be important for the determination of their magnetic properties.
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