Absence of superconductivity in ultra-thin layers of FeSe synthesized on a topological insulator

Alexander A. Khajetoorians; Andreas Eich; Charlotte Sanders; Daniel Wegner; Fabian Arnold; Jian-Li Mi; Maciej Dendzik; Marco Bianchi; Martin Bremholm; Matteo Michiardi

arxiv: 1606.05738 · v2 · pith:TMWN6GAFnew · submitted 2016-06-18 · ❄️ cond-mat.supr-con · cond-mat.mes-hall· cond-mat.mtrl-sci

Absence of superconductivity in ultra-thin layers of FeSe synthesized on a topological insulator

Andreas Eich , Nils Rollfing , Fabian Arnold , Charlotte Sanders , Pascal R. Ewen , Marco Bianchi , Maciej Dendzik , Matteo Michiardi

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Jian-Li Mi Martin Bremholm Daniel Wegner Philip Hofmann Alexander A. Khajetoorians

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classification ❄️ cond-mat.supr-con cond-mat.mes-hallcond-mat.mtrl-sci

keywords feseexhibitinvestigatedlayersmulti-layersspectroscopytemperaturetopological

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The structural and electronic properties of FeSe ultra-thin layers on Bi$_{2}$Se$_{3}$ have been investigated with a combination of scanning tunneling microscopy and spectroscopy and angle-resolved photoemission spectroscopy. The FeSe multi-layers, which are predominantly 3-5 monolayers (ML) thick, exhibit a hole pocket-like electron band at \bar{\Gamma} and a dumbbell-like feature at \bar{M}, similar to multi-layers of FeSe on SrTiO$_{3}$. Moreover, the topological state of the Bi2Se3 is preserved beneath the FeSe layer, as indicated by a heavily \it{n}-doped Dirac cone. Low temperature STS does not exhibit a superconducting gap for any investigated thickness down to a temperature of 5 K.

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Absence of superconductivity in ultra-thin layers of FeSe synthesized on a topological insulator

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