Very high upper critical fields in MgB2 produced by selective tuning of impurity scattering

Abstract

We report a significant enhancement of the upper critical field Hc2 of different MgB2 samples alloyed with nonmagnetic impurities. By studying films and bulk polycrystals with different resistivities , we show a clear trend of Hc2 increase as increases. One particular high resistivity film had zero-temperature Hc2(0) well above the Hc2 values of competing non-cuprate superconductors such as Nb3Sn and Nb-Ti. Our high-field transport measurements give record values Hc2 (0) ≈ 34T and Hc2\|(0) ≈ 49 T for high resistivity films and Hc2(0)≈ 29 T for untextured bulk polycrystals. The highest Hc2 film also exhibits a significant upward curvature of Hc2(T), and temperature dependence of the anisotropy parameter γ(T) = Hc2\|/ Hc2 opposite to that of single crystals: γ(T) decreases as the temperature decreases, from γ(Tc) ≈ 2 to γ(0) ≈ 1.5. This remarkable Hc2 enhancement and its anomalous temperature dependence are a consequence of the two-gap superconductivity in MgB2, which offers special opportunities for further Hc2 increase by tuning of the impurity scattering by selective alloying on Mg and B sites. Our experimental results can be explained by a theory of two-gap superconductivity in the dirty limit. The very high values of Hc2(T) observed suggest that MgB2 can be made into a versatile, competitive high-field superconductor.

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