Magnetization reversal in individual nanoparticles: macroscopic quantum tunneling of magnetization
Wolfgang WernsdorferE. Bonet OrozcoB. BarbaraA. Benoı̂tD. MaillyN. DemoncyH. PascardOsamu KuboHiroshi Nakano
Abstract
The combination of highly sensitive Superconducting Quantum Interference Device (SQUID) with high quality nanoparticles allowed us to check for the first time simple classical models proposed nearly 50 years ago by Neel, Stoner and Wohlfarth. For nanoparticles containing about 10/sup 5/ to 10/sup 6/ /spl mu/B the quantitative agreement with the Neel-Brown theory of thermal activated magnetization reversal allowed us to identify unambiguously the magnetization reversal mechanism as uniform rotation. In the case of insulating barium ferrite nanoparticles containing about 10/sup 5/ /spl mu//sub B/ and below 0.4 K, strong deviations from this model are found which are quantitatively in agreement with the predictions of the theory of macroscopic quantum tunneling of magnetization in the low dissipation regime.
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