Local field dynamics in a resonant quantum tunneling system of magnetic molecules

We observed non-exponential relaxation for a quantum tunneling molecular magnetic system at very low temperatures and argue that it results from evolving intermolecular dipole fields. At the very beginning of the relaxation, the magnetization follows a square-root time dependence. A simple model is developed for the intermediate time range that is in good agreement with the data over 4 decades in time. Detailed numerical calculations as well as measurements are presented which indicate unusual correlation effects in these systems. Copyright EDP Sciences, Springer-Verlag 1998

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Year of publication:	1998
Authors:	Ohm, T. ; Sangregorio, C. ; Paulsen, C.
Published in:	The European Physical Journal B - Condensed Matter and Complex Systems. - Springer. - Vol. 6.1998, 2, p. 195-199
Publisher:	Springer
Subject:	PACS.75.45.+j Macroscopic quantum phenomena in magnetic systems-61.46.+w Clusters \| nanoparticles \| and nanocrystalline materials-75.60.Ej Magnetization curves \| hysteresis \| Barkhausen and related effects

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Type of publication:	Article
Source:	RePEc - Research Papers in Economics

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