Title:
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Low temperature magnetic relaxation and quantum tunneling in nanocrystalline particles (abstract)
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Author:
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Zhang, Xixiang; Hernández Ferràs, Joan Manel; Kroll, E. C.; Ziolo, R. F.; Tejada Palacios, Javier
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Other authors:
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Universitat de Barcelona |
Abstract:
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We report measurements of the magnetic relaxation rate versus temperature for ferrofluid and magnetic‐glass samples, which are formed by a modification of nanocomposite material consisting of nanocrystalline CoFe2O4 and polymer. The magnetic properties of the samples have also been studied by using SHE‐SQUID at different temperatures (1.8–300 K) with low and high applied magnetic field (−5 T to 5 T). The magnetic relaxation in two samples show a perfect logarithmic dependence on the time, i.e., M(t)=M(t0)[1−S ln(t/t0)], in accordance with the ZFC‐FC results which indicate that there is wide energy distribution. The temperature independence of magnetic viscosity S≡[1/M(t0)dM/d]ln t below several Kelvin for the two samples gives clear evidence of macroscopic quantum tunneling of magnetization, in accordance with current theories of quantum tunneling of magnetization. |
Subject(s):
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-Propietats magnètiques -Efecte túnel -Nanocristalls -Polímers -Relaxació magnètica -Temperatures baixes -Magnetic properties -Tunneling (Physics) -Nanocrystals -Polymers -Magnetic relaxation -Low temperatures |
Rights:
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(c) American Institute of Physics, 1996
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Document type:
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Article Article - Published version |
Published by:
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American Institute of Physics
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