Broken symmetries associated with a Kagome chiral charge order

Zi Jia Cheng; Md Shafayat Hossain; Qi Zhang; Sen Shao; Jinjin Liu; Yilin Zhao; Mohammad Yahyavi; Yu Xiao Jiang; Jia Xin Yin; Xian Yang; Yongkai Li; Tyler A. Cochran; Maksim Litskevich; Byunghoon Kim; Junyi Zhang; Yugui Yao; Luis Balicas; Zhiwei Wang; Guoqing Chang; M. Zahid Hasan

doi:10.1038/s41467-025-58262-y

Broken symmetries associated with a Kagome chiral charge order

Zi Jia Cheng, Md Shafayat Hossain^*, Qi Zhang, Sen Shao, Jinjin Liu, Yilin Zhao, Mohammad Yahyavi, Yu Xiao Jiang, Jia Xin Yin, Xian Yang, Yongkai Li, Tyler A. Cochran, Maksim Litskevich, Byunghoon Kim, Junyi Zhang, Yugui Yao, Luis Balicas, Zhiwei Wang^*, Guoqing Chang^*, M. Zahid Hasan^*

^*此作品的通讯作者

物理学院

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

Chirality, or handedness, is ubiquitous in science, from cell biology to physics, and in condensed matter can underlie exotic phases such as chiral charge density waves and chiral superconductivity. However, detecting subtle broken symmetries that define such states is challenging, leading to debate and controversy. Here, using second-order optical response, we reveal the broken symmetries of a chiral charge density wave in the Kagome lattice KV₃Sb₅. Polarization-dependent mid-infrared photocurrent microscopy uncovers a longitudinal, helicity-dependent photocurrent associated with the charge order, indicating broken inversion and mirror symmetries. These findings, supported by theoretical analysis, directly establish the intrinsic chiral nature of the ordered state. Moreover, the absence of a circular photogalvanic effect perpendicular to the incident light imposes stringent constraints on the point-group symmetries. Our study not only visualizes the chiral nature of the Kagome charge order, but also highlights the nonlinear photogalvanic effect as a sensitive probe for detecting subtle symmetry breakings.

源语言	英语
文章编号	3782
期刊	Nature Communications
卷	16
期	1
DOI	http://doi.org/10.1038/s41467-025-58262-y
出版状态	已出版 - 12月 2025

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Cheng, Z. J., Hossain, M. S., Zhang, Q., Shao, S., Liu, J., Zhao, Y., Yahyavi, M., Jiang, Y. X., Yin, J. X., Yang, X., Li, Y., Cochran, T. A., Litskevich, M., Kim, B., Zhang, J., Yao, Y., Balicas, L., Wang, Z., Chang, G., & Hasan, M. Z. (2025). Broken symmetries associated with a Kagome chiral charge order. Nature Communications, 16(1), 文章 3782. http://doi.org/10.1038/s41467-025-58262-y

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abstract = "Chirality, or handedness, is ubiquitous in science, from cell biology to physics, and in condensed matter can underlie exotic phases such as chiral charge density waves and chiral superconductivity. However, detecting subtle broken symmetries that define such states is challenging, leading to debate and controversy. Here, using second-order optical response, we reveal the broken symmetries of a chiral charge density wave in the Kagome lattice KV3Sb5. Polarization-dependent mid-infrared photocurrent microscopy uncovers a longitudinal, helicity-dependent photocurrent associated with the charge order, indicating broken inversion and mirror symmetries. These findings, supported by theoretical analysis, directly establish the intrinsic chiral nature of the ordered state. Moreover, the absence of a circular photogalvanic effect perpendicular to the incident light imposes stringent constraints on the point-group symmetries. Our study not only visualizes the chiral nature of the Kagome charge order, but also highlights the nonlinear photogalvanic effect as a sensitive probe for detecting subtle symmetry breakings.",

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AU - Cheng, Zi Jia

AU - Hossain, Md Shafayat

AU - Zhang, Qi

AU - Shao, Sen

AU - Liu, Jinjin

AU - Zhao, Yilin

AU - Yahyavi, Mohammad

AU - Jiang, Yu Xiao

AU - Yin, Jia Xin

AU - Yang, Xian

AU - Li, Yongkai

AU - Cochran, Tyler A.

AU - Litskevich, Maksim

AU - Kim, Byunghoon

AU - Zhang, Junyi

AU - Yao, Yugui

AU - Balicas, Luis

AU - Wang, Zhiwei

AU - Chang, Guoqing

AU - Hasan, M. Zahid

PY - 2025/12

Y1 - 2025/12

N2 - Chirality, or handedness, is ubiquitous in science, from cell biology to physics, and in condensed matter can underlie exotic phases such as chiral charge density waves and chiral superconductivity. However, detecting subtle broken symmetries that define such states is challenging, leading to debate and controversy. Here, using second-order optical response, we reveal the broken symmetries of a chiral charge density wave in the Kagome lattice KV3Sb5. Polarization-dependent mid-infrared photocurrent microscopy uncovers a longitudinal, helicity-dependent photocurrent associated with the charge order, indicating broken inversion and mirror symmetries. These findings, supported by theoretical analysis, directly establish the intrinsic chiral nature of the ordered state. Moreover, the absence of a circular photogalvanic effect perpendicular to the incident light imposes stringent constraints on the point-group symmetries. Our study not only visualizes the chiral nature of the Kagome charge order, but also highlights the nonlinear photogalvanic effect as a sensitive probe for detecting subtle symmetry breakings.

AB - Chirality, or handedness, is ubiquitous in science, from cell biology to physics, and in condensed matter can underlie exotic phases such as chiral charge density waves and chiral superconductivity. However, detecting subtle broken symmetries that define such states is challenging, leading to debate and controversy. Here, using second-order optical response, we reveal the broken symmetries of a chiral charge density wave in the Kagome lattice KV3Sb5. Polarization-dependent mid-infrared photocurrent microscopy uncovers a longitudinal, helicity-dependent photocurrent associated with the charge order, indicating broken inversion and mirror symmetries. These findings, supported by theoretical analysis, directly establish the intrinsic chiral nature of the ordered state. Moreover, the absence of a circular photogalvanic effect perpendicular to the incident light imposes stringent constraints on the point-group symmetries. Our study not only visualizes the chiral nature of the Kagome charge order, but also highlights the nonlinear photogalvanic effect as a sensitive probe for detecting subtle symmetry breakings.

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JO - Nature Communications

JF - Nature Communications

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Broken symmetries associated with a Kagome chiral charge order

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