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Topological quantum properties of chiral crystals

Abstract

Chiral crystals are materials with a lattice structure that has a well-defined handedness due to the lack of inversion, mirror or other roto-inversion symmetries. Although it has been shown that the presence of crystalline symmetries can protect topological band crossings, the topological electronic properties of chiral crystals remain largely uncharacterized. Here we show that Kramers–Weyl fermions are a universal topological electronic property of all non-magnetic chiral crystals with spin–orbit coupling and are guaranteed by structural chirality, lattice translation and time-reversal symmetry. Unlike conventional Weyl fermions, they appear at time-reversal-invariant momenta. We identify representative chiral materials in 33 of the 65 chiral space groups in which Kramers–Weyl fermions are relevant to the low-energy physics. We determine that all point-like nodal degeneracies in non-magnetic chiral crystals with relevant spin–orbit coupling carry non-trivial Chern numbers. Kramers–Weyl materials can exhibit a monopole-like electron spin texture and topologically non-trivial bulk Fermi surfaces over an unusually large energy window.

Additional indexing

Item Type:Journal Article, refereed, original work
Communities & Collections:07 Faculty of Science > Physics Institute
Dewey Decimal Classification:530 Physics
Scopus Subject Areas:Physical Sciences > General Chemistry
Physical Sciences > General Materials Science
Physical Sciences > Condensed Matter Physics
Physical Sciences > Mechanics of Materials
Physical Sciences > Mechanical Engineering
Uncontrolled Keywords:Mechanical Engineering, General Materials Science, Mechanics of Materials, General Chemistry, Condensed Matter Physics
Language:English
Date:1 November 2018
Deposited On:30 Nov 2018 14:11
Last Modified:19 Dec 2024 02:41
Publisher:Nature Publishing Group
ISSN:1476-1122
OA Status:Green
Publisher DOI:https://doi.org/10.1038/s41563-018-0169-3

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