Abstract
AbstractBy a model calculation within the framework of the Labbé‐Friedel‐van Reuth theory of A15‐superconductors the influence is investigated of radiation induced atomic disorder on the critical temperature Tc, the Fermi level EF, the Ginzburg‐Landau parameter x, the coherence length ξ, the penetration depth λ, the critical fields Hc and Hc2, and the critical current density Jc. The theory describe successfully the experimentally observed depressions of Tc, Hc2, and Jc after high dose neutron irradiation. The assumption of statistically distributed atomic defects turns out to be more appropriate to explain the experimental results than the assumption of a strongly inhomogeneous defect distribution.
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