Enhancement of penetration field in vortex nanocrystals due to Andreev bound states

Abstract

We study the penetration field H P for vortex nanocrystals nucleated in micron-sized samples with edges aligned along the nodal and anti-nodal directions of the d-wave superconducting parameter of Bi2Sr2CaCu2O8 - δ. Here we present evidence that the H P for nanocrystals nucleated in samples with edges parallel to the nodal direction is larger than for the antinodal case, 72\,\% at low temperatures. This finding supports the theoretical proposal that surface Andreev bound states appearing in a sample with edges parallel to the nodal direction would produce an anomalous Meissner current that increases the Bean-Livingston barrier for vortex penetration.This has been detected thanks to the nucleation of vortex nanocrystals with a significant surface-to-volume ratio.