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Main Authors: Dai, Zheng, Zhang, Shuai, Li, Jiajun, Li, Xiubing, Li, Congcong, Guo, Fengyi, Zhang, Heng, Wang, Ziqi, Zhang, Minhao, Wang, Xuefeng, Wang, Huaiqiang, Song, Fengqi
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.21285
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author Dai, Zheng
Zhang, Shuai
Li, Jiajun
Li, Xiubing
Li, Congcong
Guo, Fengyi
Zhang, Heng
Wang, Ziqi
Zhang, Minhao
Wang, Xuefeng
Wang, Huaiqiang
Song, Fengqi
author_facet Dai, Zheng
Zhang, Shuai
Li, Jiajun
Li, Xiubing
Li, Congcong
Guo, Fengyi
Zhang, Heng
Wang, Ziqi
Zhang, Minhao
Wang, Xuefeng
Wang, Huaiqiang
Song, Fengqi
contents Berry curvature, as the imaginary component of quantum geometry, plays a crucial role in condensed matter physics. The spatial distribution of Berry curvature can be characterized by its dipole and multipole moments, which can induce the nonlinear anomalous Hall effect (NLAHE). To date, the NLAHE has been demonstrated in various materials, yet reports on room-temperature NLAHE are still limited. In this work, we report the observation of the third-order NLAHE in ferromagnetic metal Fe3GaTe2. The third-order NLAHE shows hysteretic behavior with the variation of magnetic field, where the coercive field is the same as that of the anomalous Hall effect, and the third-order NLAHE remains observable up to the Curie temperature (~350 K). The scaling analysis suggests that the third-order NLAHE may be attributed to the Berry curvature quadrupole. Our work not only provides an approach to study magnetic materials through nonlinear electric transports, but also opens up possibilities for the future development of room-temperature third-order nonlinear electronic devices.
format Preprint
id arxiv_https___arxiv_org_abs_2604_21285
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Room-temperature third-order nonlinear anomalous Hall effect in ferromagnetic metal Fe3GaTe2
Dai, Zheng
Zhang, Shuai
Li, Jiajun
Li, Xiubing
Li, Congcong
Guo, Fengyi
Zhang, Heng
Wang, Ziqi
Zhang, Minhao
Wang, Xuefeng
Wang, Huaiqiang
Song, Fengqi
Materials Science
Berry curvature, as the imaginary component of quantum geometry, plays a crucial role in condensed matter physics. The spatial distribution of Berry curvature can be characterized by its dipole and multipole moments, which can induce the nonlinear anomalous Hall effect (NLAHE). To date, the NLAHE has been demonstrated in various materials, yet reports on room-temperature NLAHE are still limited. In this work, we report the observation of the third-order NLAHE in ferromagnetic metal Fe3GaTe2. The third-order NLAHE shows hysteretic behavior with the variation of magnetic field, where the coercive field is the same as that of the anomalous Hall effect, and the third-order NLAHE remains observable up to the Curie temperature (~350 K). The scaling analysis suggests that the third-order NLAHE may be attributed to the Berry curvature quadrupole. Our work not only provides an approach to study magnetic materials through nonlinear electric transports, but also opens up possibilities for the future development of room-temperature third-order nonlinear electronic devices.
title Room-temperature third-order nonlinear anomalous Hall effect in ferromagnetic metal Fe3GaTe2
topic Materials Science
url https://arxiv.org/abs/2604.21285