Heisenberg Dimer Single Molecule Magnets in a Strong Magnetic Field
Abstract
We calculate the static and dynamic properties of single crystal, single molecule magnets consisting of equal spin S=1/2 or 5/2 dimers. The spins in each dimer interact with each other via the Heisenberg exchange interaction and with the magnetic induction B via the Zeeman interaction, and interdimer interactions are negligible. For antiferromagnetic couplings, the static magnetization and specific heat exhibit interesting low temperature T and strong B quantum effects. We calculate the frequency spectrum of the Fourier transform of the real part of the time autocorrelation function C11(t) for arbitrary T, B, and compare our results with those obtained for classical spins. We also calculate the inelastic neutron magnetic dynamical structure factor S( q,ω) at arbitrary T, B.
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