Vortex core near planar defects in a clean layered superconductor
Abstract
We investigate the structure of quasiparticle states localized in a core of an Abrikosov vortex in a clean layered superconductor in the presence of planar defects. It is shown that even a highly transparent defect opens a minigap at the Fermi energy. Its magnitude, EgR, exceeds the mean level spacing for the chiral branch, ω02/EF, already for very small values of the reflection coefficient off the defect, R1 ( is the bulk gap). For R/EF, formation of the minigap is accompanied by the appearance of subgap states localized along the defect, in accordance with [A. V. Samokhvalov et al., Phys.\ Rev.\ B 102, 174501 (2020)]. The minigap takes its maximal value for the vortex located right at the defect, decreases with increasing the distance b from the defect, and closes when kFb (/ω0)R. We also study various configurations of several planar defects (few crossing planes, stars, periodic structures). Although the minigap remains, a strong commensurability effect is observed. For two crossing planar defects, the magnitude of the minigap strongly depends on how close the intersection angle is to a rational fraction of π.
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