Enhancement of the upper critical field by nonmagnetic impurities in dirty two-gap superconductors
Abstract
Quasiclassic Uzadel equations for two-band superconductors in the dirty limit with the account of both intraband and interband scattering by nonmagnetic impurities are derived for any anisotropic Fermi surface. From these equations the Ginzburg-Landau equations, and the critical temperature Tc are obtained. An equation for the upper critical field, which determines both the temperature dependence of Hc2(T) and the orientational dependence of Hc2(θ) as a function of the angle θ between H and the c-axis is obtained. It is shown that the shape of the Hc2(T) curve essentially depends on the ratio of the intraband electron diffusivities D1 and D1, and can be very different from the standard one-gap dirty limit theory. In particular, the value Hc2(0) can considerably exceed 0.7TcdHc2/dTc, which can have important consequences for applications of MgB2. A scaling relation is proposed which enables one to obtain the angular dependence of Hc2(θ) from the equation for Hc2 at H\| c. It is shown that, depending on the relation between D1 and D2, the ratio of the upper critical field Hc2\|/Hc2 for H\| ab and H ab can both increase and decrease as the temperature decreases. Implications of the obtained results for MgB2 are discussed.
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