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Square-root higher-order Weyl semimetals

Physics

Square-root higher-order Weyl semimetals

L. Song, H. Yang, et al.

This article explores an innovative model of square-root higher-order Weyl semimetal (SHOWS), showcasing both 'Fermi-arc' surface and hinge states. The research team, including Lingling Song, Huanhuan Yang, Yunshan Cao, and Peng Yan, has constructed and observed this state in 3D stacked electric circuits, paving the way for new advancements in square-root topology within solid-state platforms.... show more
Abstract
The mathematical foundation of quantum mechanics is built on linear algebra, while the application of nonlinear operators can lead to outstanding discoveries under some circumstances, such as the prediction of positron, a direct outcome of the Dirac equation which stems from the square-root of the Klein-Gordon equation. In this article, we propose a model of square-root higher-order Weyl semimetal (SHOWS) by inheriting features from its parent Hamiltonians. It is found that the SHOWS hosts both "Fermi-arc" surface and hinge states that respectively connect the projection of the Weyl points on the side surface and arris. We theoretically construct and experimentally observe the exotic SHOWS state in three-dimensional (3D) stacked electric circuits with honeycomb-kagome hybridizations and double-helix interlayer couplings. Our results open the door for realizing the square-root topology in 3D solid-state platforms.
Publisher
Nature Communications
Published On
Sep 24, 2022
Authors
Lingling Song, Huanhuan Yang, Yunshan Cao, Peng Yan
DOI
https://doi.org/10.1038/s41467-022-33306-9
Tags
Weyl semimetal
Fermi-arc
hinge states
square-root topology
3D electric circuits

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