Hysteresis loops and adiabatic Landau-Zener-St\"uckelberg transitions in the magnetic molecule V6

Abstract

We have observed hysteresis loops and abrupt magnetization steps in the magnetic molecule V6, where each molecule comprises a pair of identical spin triangles, in the temperature range 1-5 K for external magnetic fields B with sweep rates of several Tesla/ms executing a variety of closed cycles. The hysteresis loops are accurately reproduced using a generalization of the Bloch equation based on direct one-phonon transitions between the instantaneous Zeeman-split levels of the ground state (an S=1/2 doublet) of each spin triangle. The magnetization steps occur for B≈ 0 and they are explained in terms of adiabatic Landau-Zener-St\"uckelberg transitions between the lowest magnetic energy levels as modified by inter-triangle anisotropic exchange of order 0.4 K.

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