Time-dependent specific heat experiments on the molecular nanomagnet Fe-8 and the isotopic enriched analogue Fe-57(8) are presented. The inclusion of the Fe-57 nuclear spins leads to a huge enhancement of the specific heat below 1 K, ascribed to a strong increase in the spin-lattice relaxation rate Gamma arising from incoherent, nuclear-spin-mediated magnetic quantum tunneling (MQT) in the ground doublet. Since Gamma is found comparable to the expected tunneling rate, the MQT process has to be inelastic. A model for the coupling of the tunneling spins to the lattice is presented. Under transverse field, a crossover from nuclear-spin-mediated to phonon-induced tunneling is observed.
Giant Isotope Effect in the Incoherent Tunneling Specific Heat of the Molecular Nanomagnet Fe-8 / M. EVANGELISTI; F. LUIS; F. L. METTES; R. SESSOLI; L. J. DE JONGH. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - STAMPA. - 95:(2005), pp. 227206-227206. [10.1103/PhysRevLett.95.227206]
Giant Isotope Effect in the Incoherent Tunneling Specific Heat of the Molecular Nanomagnet Fe-8
SESSOLI, ROBERTA;
2005
Abstract
Time-dependent specific heat experiments on the molecular nanomagnet Fe-8 and the isotopic enriched analogue Fe-57(8) are presented. The inclusion of the Fe-57 nuclear spins leads to a huge enhancement of the specific heat below 1 K, ascribed to a strong increase in the spin-lattice relaxation rate Gamma arising from incoherent, nuclear-spin-mediated magnetic quantum tunneling (MQT) in the ground doublet. Since Gamma is found comparable to the expected tunneling rate, the MQT process has to be inelastic. A model for the coupling of the tunneling spins to the lattice is presented. Under transverse field, a crossover from nuclear-spin-mediated to phonon-induced tunneling is observed.
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