Anisotropic vortex pinning in superconductors with a square array of
  rectangular submicron holes

A. Bezryadin; A. Brass; A. Brass; A. Buzdin; A. Castellanos; A. Wahl; A.F. Hebard; B. R. Zhao; B. Y. Zhu; B.Y. Zhu; B.Y. Zhu; C. Reichhardt; C. Reichhardt; C. Reichhardt; D.J. Morgan; J.I. Martín; K. Harada; L. Van Look; M. Baert; M.A. Itzler; M.J. Van Bael; M.J. Van Bael; O. Daldini; P. Martinoli; R. Jonckheere; S.B. Field; S.J. Bending; V. V. Moshchalkov; V.V. Moshchalkov; V.V. Moshchalkov; Y. Otani; Z. X. Zhao

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Anisotropic vortex pinning in superconductors with a square array of rectangular submicron holes

Authors: A. Bezryadin
A. Brass
A. Brass
A. Buzdin
A. Castellanos
A. Wahl
A.F. Hebard
B. R. Zhao
B. Y. Zhu
B.Y. Zhu
B.Y. Zhu
C. Reichhardt
C. Reichhardt
C. Reichhardt
D.J. Morgan
J.I. Martín
K. Harada
L. Van Look
M. Baert
M.A. Itzler
M.J. Van Bael
M.J. Van Bael
O. Daldini
P. Martinoli
R. Jonckheere
S.B. Field
S.J. Bending
V. V. Moshchalkov
V.V. Moshchalkov
V.V. Moshchalkov
Y. Otani
Z. X. Zhao
Publication date: 11 February 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We investigate vortex pinning in thin superconducting films with a square array of rectangular submicron holes ("antidots"). Two types of antidots are considered: antidots fully perforating the superconducting film, and "blind antidots", holes that perforate the film only up to a certain depth. In both systems, we observe a distinct anisotropy in the pinning properties, reflected in the critical current Ic, depending on the direction of the applied electrical current: parallel to the long side of the antidots or perpendicular to it. Although the mechanism responsible for the effect is very different in the two systems, they both show a higher critical current and a sharper IV-transition when the current is applied along the long side of the rectangular antidots

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