We show that the nuclear spin dynamics in the single-molecule magnet Mn-12-ac below 1 K is governed by quantum tunneling fluctuations of the cluster spins, combined with intercluster nuclear spin diffusion. We also obtain the first experimental proof that-surprisingly-even deep in the quantum regime the nuclear spins remain in good thermal contact with the lattice phonons. We propose a simple model for how T-independent tunneling fluctuations can relax the nuclear polarization to the lattice that may serve as a framework for more sophisticated theories.
Nuclear Spin Dynamics in the Quantum Regime of a Single- Molecule Magnet / A. MORELLO; O. N. BAKHAREV; H. B. BROM; R. SESSOLI; L. J. DE JONGH. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - STAMPA. - 93:(2004), pp. 197202-197202. [10.1103/PhysRevLett.93.197202]
Nuclear Spin Dynamics in the Quantum Regime of a Single- Molecule Magnet
SESSOLI, ROBERTA;
2004
Abstract
We show that the nuclear spin dynamics in the single-molecule magnet Mn-12-ac below 1 K is governed by quantum tunneling fluctuations of the cluster spins, combined with intercluster nuclear spin diffusion. We also obtain the first experimental proof that-surprisingly-even deep in the quantum regime the nuclear spins remain in good thermal contact with the lattice phonons. We propose a simple model for how T-independent tunneling fluctuations can relax the nuclear polarization to the lattice that may serve as a framework for more sophisticated theories.
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