Critical Fluctuations and Disorder at the Vortex Liquid to Crystal Transition in Type-II Superconductors
Abstract
We present a functional renormalization group (FRG) analysis of a Landau-Ginzburg model of type-II superconductors (generalized to n/2 complex fields) in a magnetic field, both for a pure system, and in the presence of quenched random impurities. Our analysis is based on a previous FRG treatment of the pure case [E.Br\'ezin et. al., Phys. Rev. B, 31, 7124 (1985)] which is an expansion in ε = 6-d. If the coupling functions are restricted to the space of functions with non-zero support only at reciprocal lattice vectors corresponding to the Abrikosov lattice, we find a stable FRG fixed point in the presence of disorder for 1<n<4, identical to that of the disordered O(n) model in d-2 dimensions. The pure system has a stable fixed point only for n>4 and so the physical case (n = 2) is likely to have a first order transition. We speculate that the recent experimental findings that disorder removes the apparent first order transition are consistent with these calculations.
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