Peak effect at the weak- to strong pinning crossover
Abstract
In type-II superconductors, the magnetic field enters in the form of vortices; their flow under application of a current introduces dissipation and thus destroys the defining property of a superconductor. Vortices get immobilized by pinning through material defects, thus resurrecting the supercurrent. In weak collective pinning, defects compete and only fluctuations in the defect density produce pinning. On the contrary, strong pins deform the lattice and induce metastabilities. Here, we focus on the crossover from weak- to strong bulk pinning, which is triggered either by increasing the strength fp of the defect potential or by decreasing the effective elasticity of the lattice (which is parametrized by the Labusch force fLab). With an appropriate Landau expansion of the free energy we obtain a peak effect with a sharp rise in the critical current density jc j0 (a02 np) (2/a02) (fp/fLab -1)2.
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