Helical edge states and enhanced superconducting gaps in Bi islands on FeTe0.55Se0.45

Abstract

By measuring scanning tunneling spectroscopy on some large Bi islands deposited on FeTe0.55Se0.45 superconductors, we observe clear evidence of topological in-gap edge states with double peaks at about 1.0 meV on the spectra measured near the perimeter of the islands. The edge states spread towards the inner side of the islands over a width of 2-3 nm. The two edge-state peaks at positive and negative energies both move to higher values with increase of the magnetic field, and they disappear near the transition temperature Tc of FeTe0.55Se0.45. The edge states are interpreted as the counter-propagating topological edge states induced by the strong spin-orbit coupling effect of the Bi island, and the zero-energy mode emerges when the edge states touch each other in some small Bi islands. Meanwhile, enhanced superconducting gaps are observed in the central regions of these Bi islands, which may be induced by the enhanced pair potential of the topological surface state. Our observations provide useful message for the nontrivial topological superconductivity on specific Bi islands grown on FeTe0.55Se0.45 substrate.

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