Fabrication of microstructured devices of the unconventional superconductor CeCoIn5 for investigations of isolated grain boundaries

Abstract

Grain boundaries are critical for determining the functionality of polycrystalline materials. Here we present on the structural \& transport properties of grain boundaries in the unconventional superconductor CeCoIn5. We provide a detailed recipe for the fabrication of isolated grain boundary devices from of as-grown polycrystalline samples of CeCoIn5. Electron backscattered diffraction imaging of polycrystalline CeCoIn5 samples reveals an abundance of 90 misorientation grain boundaries suggesting a preferential nucleation of CeCoIn5 grains with 90 misorientation over a random distribution of grain orientations. Transport measurements across grain boundary devices establish coherence of superconductivity and allows us to establish a lower bound on the critical current density for the grain boundaries. Our work opens new possibilities for fabrication of quantum devices such as Josephson-junctions out of bulk unconventional superconducting materials.