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Critical currents approaching the depairing limit at a twin boundary in YBa2Cu3O7−δ

Ivan Maggio-Aprile (), Christophe Renner, Andreas Erb, Eric Walker and Øystein Fischer
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Ivan Maggio-Aprile: Université de Genève
Christophe Renner: Université de Genève
Andreas Erb: Université de Genève
Eric Walker: Université de Genève
Øystein Fischer: Université de Genève

Nature, 1997, vol. 390, issue 6659, 487-490

Abstract: Abstract Interest in vortex matter has risen considerably since the discovery of the high-temperature superconductors, which exhibit magnetic vortex states that are especially rich and complex1. The global behaviour of magnetic vortices in nearly perfect crystals—such as melting of the vortex lattice2,3,4,5—has been much studied, but of more technological relevance is the influence on the vortex states of the various structural defects present in most practical superconductors. An important example of such a defect is the twin boundary present in twinned orthorhombic crystals of YBa2Cu3O7−δ (YBCO). Studies of such samples using magnetic-field-sensitive probes6,7,8,9 have suggested that the twin boundary plays an important role in pinning the vortices and so enhancing the currents that YBCO can support while remaining superconducting. But the low spatial resolution of these techniques does not permit these effects to be studied at the scale of the vortices or boundaries themselves. Scanning tunnelling spectroscopy offers a means of circumventing these problems of resolution10,11,12, as it directly probes the superconducting order parameter at nanometre length scales. Here we use this technique to investigate the importance of twin boundaries in YBCO. In particular, we observe an unexpectedly large pinning strength for perpendicular vortex flux across the boundary, which implies that the critical current that can be supported along the boundary approaches the theoretical ‘depairing’ limit.

Date: 1997
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DOI: 10.1038/37312

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