On the Meissner state for type-II inhomogeneous superconductors
Abstract
We consider extreme type-II superconductors modeled by the Ginzburg--Landau energy with a pinning term a(x), which we assume to be a bounded measurable function such that b≤ a(x)≤ 1 for some constant b>0. A crucial feature of this type of superconductors is the occurrence of vortices, which appear above the so-called first critical field Hc1. In this paper we estimate this value and characterize the behavior of the Meissner solution, the unique vortexless configuration that globally minimizes the energy below Hc1. In addition, we show that beyond this value, for applied fields whose strength is slightly below the so-called superheating field Hsh, there exists a unique Meissner-type solution that locally minimizes the energy.
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