Superconductivity in PtPb\(_{4}\) with Possible Nontrivial Band Topology

Superconductivity in topological quantum materials is much sought after as it represents the key avenue to searching for topological superconductors, which host a full pairing gap in the bulk but Majorana bound states at the surface. To date, however, the simultaneous realization of nontrivial band...

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Bibliographic Details
Published in:arXiv.org 2021-09
Main Authors: Xu, C Q, B Li, Zhang, L, Pollanen, J, Yi, X L, Xing, X Z, Liu, Y, Wang, J H, Zhu, Zengwei, Shi, Z X, Xu, Xiaofeng, X Ke
Format: Article
Language:English
Subjects:
Density functional theory
Superconductivity
Topological superconductors
Topology
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Summary:Superconductivity in topological quantum materials is much sought after as it represents the key avenue to searching for topological superconductors, which host a full pairing gap in the bulk but Majorana bound states at the surface. To date, however, the simultaneous realization of nontrivial band topology and superconductivity in the same material under ambient conditions remains rare. In this paper, we study both superconducting and topological properties of a binary compound PtPb\(_{4}\) (\(T_c\) \(\sim\) 2.7 K) that was recently reported to exhibit large Rashba splitting, inherent to the heavy 5\(d\) Pt and 6\(p\) Pb. We show that in PtPb\(_{4}\), the specific heat jump at \(T_c\) reaches $\Delta C/\gamma T_{c}$$\sim\(1.70\)\pm0.04$, larger than 1.43 expected for the weak-coupling BCS superconductors. Moreover, the measurement of quantum oscillation suggests the possibility for a topological band structure, which is further studied by density functional theory calculations. Our study may stimulate future experimental and theoretical investigations in this intriguing material.
ISSN:2331-8422
DOI:10.48550/arxiv.2109.10728