Superconducting properties of Bi2PdPt and prediction of topological superconductivity in the disorder-free limit

Sudarshan Sharma; Addison Richards; Sajilesh K. P.; ANSHU KATARIA; Babafemi S Agboola; Mathew Pula; Jonah Gautreau; Arindam Ghara; Deepak Singh; Sourav Marik; Sarah R Dunsiger; Maureen J Lagos; Amit Kanigel; Erik S Sorensen; Ravi P Singh; Graeme Luke

Superconducting properties of Bi<sub>2</sub>PdPt and prediction of topological superconductivity in the disorder-free limit

ORAL

Abstract

Bismuth-containing superconducting alloys have attracted a lot of research interest in the last decade due to their topologically non-trivial band structures and unconventional superconducting properties [1-2]. In this talk, I will discuss the structural and physical properties along with density functional theory (DFT) calculations for Bi₂Pd_xPt_1-x. Our zero field-(muon spin relaxation/rotation) μSR measurements of superconducting Bi₂PdPt present evidence for a time reversal symmetry preserving superconducting state. Furthermore, our transverse field μSR measurements of the penetration depth as a function of temperatures suggest an isotropic, fully-gapped superconducting state.

We have calculated the Z₂ topological index from our DFT calculations for Bi₂Pd_xPt_1-x, between x=0 and x=1. Our findings reveal non-trivial topological state (Z₂=1) when x>0.75 and a trivial topological state (Z₂=0) when x<0.75. This shows that γ-BiPd is topologically non-trivial and Bi₂PdPt (x=0.5) is topologically trivial but is close to the critical substitution fraction of x=0.75 predicted in DFT.

[1] Sun, Z., Enayat, M., Maldonado, A. et al. Nat Commun 6, 6633 (2015).

[2] Hyunsoo Kim et al., Sci. Adv.4,eaao4513(2018)

^*Work at McMaster was supported by the Natural Sciences and Engineering Research of Council of Canada. R. P. S. acknowledges the Science and Engineering Research Board, Government of India, for the Core Research Grant CRG/2019/001028. The financial support from DSTFIST Project No. SR/FST/PSI-195/2014(C) is also thankfully acknowledged. This research was enabled in part by support provided by SHARCNET (sharcnet.ca) and the Digital Research Alliance of Canada(alliancecan.ca). M.J.L. and B.S.A. acknowledge the financial support of the Natural Sciences and Engineering Research Council of Canada (NSERC) under the Discovery Grant Program. We also thank the Canadian Centre for Electron Microscopy (CCEM) for providing access to electron microscopy facilities.

March 5, 2024, 11:54 AM – March 5, 2024, 12:06 PM

Presenters

Sudarshan Sharma
- McMaster University

Authors

Sudarshan Sharma
- McMaster University
Addison Richards
- McMaster University
Sajilesh K. P.
- Technion - Israel Institute of Technology
- Physics Department, Technion-Israel Institute of Technology, Haifa 32000, Israel
ANSHU KATARIA
- Indian Institute of Science Education and Research Pune, Pune
Babafemi S Agboola
- McMaster University, Canada
Mathew Pula
- McMaster University
Jonah Gautreau
- McMaster Univ
Arindam Ghara
- Indian Institute of Science Education and Research Pune, Pune
Deepak Singh
- Indian Institute of Science Education and Research Bhopal, Bhopal
Sourav Marik
- Indian Institute of Science Education and Research Bhopal, Bhopal
Sarah R Dunsiger
- TRIUMF
Maureen J Lagos
- McMaster University
Amit Kanigel
- Technion - Israel Institute of Technolog
- Technion - Israel Institute of Technology
Erik S Sorensen
- McMaster University
Ravi P Singh
- Indian Institute of Science Education and Research Bhopal
- Department of Physics, Indian Institute of Science Education and Research (IISER) Bhopal, PO 462066, India
Graeme Luke
- McMaster University