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Unconventional chiral charge order in kagome superconductor KV3Sb5

Abstract

Intertwining quantum order and non-trivial topology is at the frontier of condensed matter physics1,2,3,4. A charge-density-wave-like order with orbital currents has been proposed for achieving the quantum anomalous Hall effect5,6 in topological materials and for the hidden phase in cuprate high-temperature superconductors7,8. However, the experimental realization of such an order is challenging. Here we use high-resolution scanning tunnelling microscopy to discover an unconventional chiral charge order in a kagome material, KV3Sb5, with both a topological band structure and a superconducting ground state. Through both topography and spectroscopic imaging, we observe a robust 2 × 2 superlattice. Spectroscopically, an energy gap opens at the Fermi level, across which the 2 × 2 charge modulation exhibits an intensity reversal in real space, signalling charge ordering. At the impurity-pinning-free region, the strength of intrinsic charge modulations further exhibits chiral anisotropy with unusual magnetic field response. Theoretical analysis of our experiments suggests a tantalizing unconventional chiral charge density wave in the frustrated kagome lattice, which can not only lead to a large anomalous Hall effect with orbital magnetism, but also be a precursor of unconventional superconductivity.

Additional indexing

Item Type:Journal Article, refereed, further contribution
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, Mechanics of Materials, Condensed Matter Physics, General Materials Science, General Chemistry
Language:English
Date:1 October 2021
Deposited On:23 Dec 2021 05:36
Last Modified:26 Dec 2024 02:39
Publisher:Nature Publishing Group
ISSN:1476-1122
OA Status:Closed
Publisher DOI:https://doi.org/10.1038/s41563-021-01034-y

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