Unconventional chiral charge order in kagome superconductor KV₃Sb₅

Intertwining quantum order and non-trivial topology is at the frontier of condensed matter physics. A charge-density-wave-like order with orbital currents has been proposed for achieving the quantum anomalous Hall effect in topological materials and for the hidden phase in cuprate high-temperature s...

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Main Authors: Jiang, Yu-Xiao, Yin, Jia-Xin, Denner, M. Michael, Shumiya, Nana, Ortiz, Brenden R., Xu, Gang, Guguchia, Zurab, He, Junyi, Md Shafayat Hossain, Liu, Xiaoxiong, Ruff, Jacob, Kautzsch, Linus, Zhang, Songtian S., Chang, Guoqing, Belopolski, Ilya, Zhang, Qi, Cochran, Tyler A., Multer, Daniel, Litskevich, Maksim, Cheng, Zi-Jia, Yang, Xian P., Wang, Ziqiang, Thomale, Ronny, Neupert, Titus, Wilson, Stephen D., M. Zahid Hasan
Other Authors: School of Physical and Mathematical Sciences
Format: Article
Language:English
Published: 2022
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Online Access:https://hdl.handle.net/10356/155563
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Institution: Nanyang Technological University
Language: English
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Summary:Intertwining quantum order and non-trivial topology is at the frontier of condensed matter physics. A charge-density-wave-like order with orbital currents has been proposed for achieving the quantum anomalous Hall effect in topological materials and for the hidden phase in cuprate high-temperature superconductors. 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.