Kondensierte Materie - Experimentelle Festkörperphysik

Surface superconductivity in the topological Weyl semimetal t-PtBi2/Neuartige Oberflächenleitung in topologischem Material entdeckt

09.12.2024|11:08 Uhr

Zu diesem Artikel ist eine Pressemitteilung erschienen:

https://www.uni-wuppertal.de/de/news/detail/neuartige-oberflaechensupraleitung-in-topologischem-material-entdeckt/#gsc.tab=0

 

Eine ausführlicherere Pressemitteilung enthält die Dekanatsseite der Fachgruppe Physik:

https://fk4.uni-wuppertal.de/de/aktuelles/ansicht/neuartige-oberflaechensupraleitung-in-topologischem-material-entdeckt/

Abstract

Topological superconductivity is a promising concept for generating fault-tolerant qubits. Early experimental studies looked at hybrid systems and doped intrinsic topological or superconducting materials at very low temperatures. However, higher critical temperatures are indispensable for technological exploitation. Recent angle-resolved photoemission spectroscopy results have revealed that superconductivity in the type-I Weyl semimetal—trigonal PtBi2 (t-PtBi2)—is located at the Fermi-arc surface states, which renders the material a potential candidate for intrinsic topological superconductivity. Here we show, using scanning tunnelling microscopy and spectroscopy, that t-PtBi2 presents surface superconductivity at elevated temperatures (5 K). The gap magnitude is elusive: it is spatially inhomogeneous and spans from 0 to 20 meV. In particular, the large gap value and the shape of the quasiparticle excitation spectrum resemble the phenomenology of high-Tc superconductors. To our knowledge, this is the largest superconducting gap so far measured in a topological material. Moreover, we show that the superconducting state at 5 K persists in magnetic fields up to 12 T.

https://www.nature.com/articles/s41467-024-54389-6

 

Weitere Infos über #UniWuppertal: