Experimental evidence for surface pinning by defects in superconducting niobium crystals
- 1 October 1972
- journal article
- research article
- Published by Taylor & Francis in Philosophical Magazine
- Vol. 26 (4) , 779-800
- https://doi.org/10.1080/14786437208226955
Abstract
The extrapolated critical current density JF is observed to increase strongly as the angle ⊘ between the magnetic field (HC2 ) and a flat surface of a niobium crystal prism is decreased. The data can be represented by the empirical equations, where JF0 and JFi are critical current densities when the Lorentz force on flux lines is out of, and into, the surface respectively. The equation for Jp[sgrave] holds for all values ⊘ but that for JF i holds only for ⊘ greater than some critical value. A 1% tensile deformation increases a by at least an order of magnitude for HH c2. the enhanced effectiveness of dislocation pins near the surface cannot be attributed to the presence of the surface sheath. Although the surface flux pinning model outlined in the preceding paper can predict many of these results, there are also important discrepancies.Keywords
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