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Bicrystalline Grain Boundary and Hybrid SNS Junctions Based on Ba-122 Thin Films

To investigate the properties of iron-based superconductors, we examined different kinds of Josephson junctions using Co-doped Ba-122 thin films. Based on bicrystalline SrTiO3 substrates we prepared grain boundary (GB) junctions, which showed clear Josephson effects. We present electrical measurements at varying temperatures and magnetic fields. Furthermore, we prepared hybrid junctions using thin film technique. Confined by a Ba-122 base electrode (S) and a PbIn counter electrode (S') two different geometries of hybrid junctions are formed: a planar SNS' junction with a gold barrier (N) in between and an edge-type junction with an interface-engineered barrier. All three kinds of junctions showed asymmetric resistively shunted junction-like (RSJ) behavior with ICRN products of 20.2 /mu V (GB junctions), 18.4 /mu V (planar SNS' junctions) and 12.3 /mu V (edge-type junctions), respectively. An excess current could be observed at all junctions.

preprint2012arXivOpen access
Stefan SchmidtSebastian DöringFrank SchmidlVolker TympelSilvia HaindlKazumasa IidaFritz KurthBernhard HolzapfelPaul Seidel
cond-mat.supr-con
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Stefan SchmidtSebastian DöringFrank SchmidlVolker TympelSilvia HaindlKazumasa IidaFritz KurthBernhard HolzapfelPaul Seidel

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