Superconductivity in MgB2 doped with Ti and C
Abstract
Measurements of the superconducting upper critical field, Hc2, and critical current density, Jc, have been carried out for MgB2 doped with Ti and/or C in order to explore the problems encountered if these dopants are used to enhance the superconducting performance. Carbon replaces boron in the MgB2 lattice and apparently shortens the electronic mean free path thereby raising Hc2. Titanium forms precipitates of either TiB or TiB2 that enhance the flux pinning and raise Jc. Most of these precipitates are intra-granular in the MgB2 phase. If approximately 0.5% Ti and approximately 2% C are co-deposited with B to form doped boron fibers and these fibers are in turn reacted in Mg vapor to form MgB2, the resulting superconductor has Hc2(T=0) ~ 25 T and Jc ~ 10,000 A/cm**2 at 5 K and 2.2 T.
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