Topological superconductivity in multifold fermion metals

Zhe Shen Gao; Xue-Jian Gao; Wen-Yu He; Xiao Yan Xu; T. K. Ng; K. T. Law

doi:10.1007/s44214-022-00001-1

Quantum Frontiers (Sep 2022)

Topological superconductivity in multifold fermion metals

Zhe Shen Gao,
Xue-Jian Gao,
Wen-Yu He,
Xiao Yan Xu,
T. K. Ng,
K. T. Law

Affiliations

Zhe Shen Gao: Department of Physics, Hong Kong University of Science and Technology
Xue-Jian Gao: Department of Physics, Hong Kong University of Science and Technology
Wen-Yu He: Department of Physics, Massachusetts Institute of Technology
Xiao Yan Xu: Department of Physics, University of California at San Diego
T. K. Ng: Department of Physics, Hong Kong University of Science and Technology
K. T. Law: Department of Physics, Hong Kong University of Science and Technology

DOI: https://doi.org/10.1007/s44214-022-00001-1
Journal volume & issue: Vol. 1, no. 1
pp. 1 – 6

Abstract

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Abstract Recently, multifold fermions characterized by band crossings with multifold degeneracy and Fermi surfaces with higher Chern numbers have been discovered experimentally in AlPt (Schroter et al. in Nat Phys 15:759–765, 2019) and XSi(X = Rh,Co) (Sanchez et al. in Nature 567:500–505, 2019; Rao et al. in Nature 567:496–499, 2019; Takane et al. in Phys Rev Lett 122:076402, 2019). In this work, we largely expand the family of multifold fermion materials by pointing out that several well-studied noncentrosymmetric superconductors are indeed multifold fermion metals. Importantly, their normal state topological properties, which have been ignored in previous studies, play an important role in the superconducting properties. Taking Li 2 Pd 3 B $\mathrm{Li} _{2}\mathrm{Pd} _{3}\mathrm{B}$ and Li 2 Pt 3 B $\mathrm{Li} _{2}\mathrm{Pt} _{3}\mathrm{B}$ as examples, we found a large number of unconventional degenerate points, such as double spin-1, spin-3/2, Weyl and double Weyl topological band crossing points near the Fermi energy, which result in finite Chern numbers on Fermi surfaces. Long Fermi arc states in Li 2 Pd 3 B $\mathrm{Li} _{2}\mathrm{Pd} _{3}\mathrm{B}$ , originating from the nontrivial band topology were found. Importantly, it has been shown experimentally that Li 2 Pd 3 B $\mathrm{Li} _{2}\mathrm{Pd} _{3}\mathrm{B}$ and Li 2 Pt 3 B $\mathrm{Li} _{2}\mathrm{Pt} _{3}\mathrm{B}$ are fully gapped and gapless superconductors, respectively. By analyzing the possible pairing symmetries, we suggest that Li 2 Pd 3 B $\mathrm{Li} _{2}\mathrm{Pd} _{3}\mathrm{B}$ is a conventional s-wave superconductor or DIII class topological superconductor with Majorana surface states. Li 2 Pt 3 B $\mathrm{Li} _{2}\mathrm{Pt} _{3}\mathrm{B}$ , being gapless, is likely to be a nodal topological superconductor with dispersionless surface Majorana modes. We further identified that several noncentrosymmetric superconductors, such as Mo 3 Al 2 C $\mathrm{Mo} _{3}\mathrm{Al} _{2}\mathrm{C}$ , PdBiSe, Y 2 C 3 $\mathrm{Y}_{2}\mathrm{C}_{3}$ and La 2 C 3 $\mathrm{La} _{2}\mathrm{C}_{3}$ , are multifold fermion superconductors. This work calls for a revisit for the study of noncentrosymmtric superconductors which provide platforms for investigating the interplay between superconductivity and topologically nontrivial Fermi surfaces.

Published in Quantum Frontiers

ISSN: 2731-6106 (Online)
Publisher: Springer
Country of publisher: Singapore
LCC subjects: Science: Physics: Atomic physics. Constitution and properties of matter
Website: https://www.springer.com/journal/44214

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