Gapful electrons in a vortex core in granular superconductors
Abstract
We calculate the quasiparticle density of states (DoS) inside the vortex core in a granular superconductor, generalizing the classical solution applicable for dirty superconductors. A discrete version of the Usadel equation for a vortex is derived and solved numerically for a broad range of parameters. Electron DoS is found to be gapful when the vortex size becomes comparable to the distance between neighboring grains l. Minigap magnitude Eg grows from zero at ≈ 1.4 l to third of superconducting gap 0 at ≈ 0.5 l. The absence of low-energy excitations is the main ingredient needed to understand strong suppression of microwave dissipation recently observed in a mixed state of granular Al.
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