Magnetic Anisotropy of a Single Cobalt Nanoparticle

A. Pérez; A. Pérez; A. Thiaville; A. Thiaville; C. H. Lee; C. Thirion; D. J. Sellmyer; D. Mailly; D. S. Chuang; E. Bonet; E. C. Stoner; F. Parent; J. Buttet; J. Dorantes-Davila; J. L. Dormann; J. Tuaillon; M. E. Schabes; M. Jamet; M. Jamet; M. Pellarin; N. Nakajima; P. Mélinon; R. H. Kodama; S. Valkealahti; T. P. Martin; V. Dupuis; W. Wernsdorfer; W. Wernsdorfer; W. Wernsdorfer; W. Wernsdorfer; W. Wernsdorfer

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Magnetic Anisotropy of a Single Cobalt Nanoparticle

Authors: A. Pérez
A. Pérez
A. Thiaville
A. Thiaville
C. H. Lee
C. Thirion
D. J. Sellmyer
D. Mailly
D. S. Chuang
E. Bonet
E. C. Stoner
F. Parent
J. Buttet
J. Dorantes-Davila
J. L. Dormann
J. Tuaillon
M. E. Schabes
M. Jamet
M. Jamet
M. Pellarin
N. Nakajima
P. Mélinon
R. H. Kodama
S. Valkealahti
T. P. Martin
V. Dupuis
W. Wernsdorfer
W. Wernsdorfer
W. Wernsdorfer
W. Wernsdorfer
W. Wernsdorfer
Publication date: 3 December 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Using a new microSQUID set-up, we investigate magnetic anisotropy in a single 1000-atoms cobalt cluster. This system opens new fields in the characterization and the understanding of the origin of magnetic anisotropy in such nanoparticles. For this purpose, we report three-dimensional switching field measurements performed on a 3 nm cobalt cluster embedded in a niobium matrix. We are able to separate the different magnetic anisotropy contributions and evidence the dominating role of the cluster surface.Comment: 4 pages, 8 figure

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