Title :
Enhanced Flux Pinning in MOD Second Generation HTS Wires by Silver- and Copper-Ion Irradiation
Author :
Strickland, N.M. ; Long, N.J. ; Xia, J. ; Kennedy, J. ; Markwitz, A. ; Zondervan, A. ; Rupich, M.W. ; Zhang, W. ; Li, X. ; Kodenkandath, T. ; Huang, Y.
Author_Institution :
Ind. Res. Ltd, Lower Hutt
fDate :
6/1/2007 12:00:00 AM
Abstract :
We have studied the effect of medium-energy ion irradiation on flux pinning in second-generation HTS wires. Irradiation with 74 MeV silver ions and 50 MeV copper ions have produced up to 60% enhancements in critical current. The field-angle dependence shows enhancements over a wide angle range, suggesting that the irradiation defects are point-like defects rather than continuous columns. Such isotropic enhancements are generally preferable over narrow-angle anisotropic effects for wire applications. Ion irradiation can then be used to create a model population of defects to study concentration dependences. We present transport, magnetization, and TEM results to probe the nature of the defects formed by this irradiation.
Keywords :
barium compounds; critical currents; flux pinning; high-temperature superconductors; ion beam effects; magnetisation; transmission electron microscopy; yttrium compounds; TEM; YBa2Cu3O7 - System; continuous columns; critical current; defect model population; electron volt energy 50 MeV; electron volt energy 74 MeV; field-angle dependence; flux pinning; magnetization; medium-energy ion irradiation; point-like defects; second-generation high-Tc superconductor wires; Critical current; Energy loss; Flux pinning; High temperature superconductors; Magnetic fields; Morphology; Superconducting coils; Superconductivity; Wires; Yttrium barium copper oxide; Coated conductors; YBCO; flux pinning; ion irradiation;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2007.899118
