Spin Gap of Two-Dimensional Antiferromagnet Representing CaV4O9

Abstract

We examined a two-dimensional Heisenberg model with two kinds of exchange energies, Je and Jc. This model describes localized spins at vanadium ions in a layer of CaV4O9, for which a spin gap is found by a recent experiment. Comparing the high temperature expansion of the magnetic susceptibility to experimental data, we determined the exchange energies as Je 610 K and Jc 150 K. By the numerical diagonalization we estimated the spin gap as 0.2Je 120 K, which consists with the experimental value 107 K. Frustration by finite Jc enhances the spin gap.

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