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Main Authors: Chen, Di, Luo, Bingcheng, Xu, Lei, Xia, Zian, Jia, Linhao, Qi, Shaomian, Tian, Congkuan, Chen, Kangyao, Cui, Hang, Chen, Guangyi, Yan, Shili, Huang, Miaoling, Cui, Jian, Feng, Ya, Wang, Zhentao, Xiao, Jiang, Zhang, Jianhua, Shindou, Ryuichi, Xie, X. C., Chen, Jian-Hao
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.22802
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author Chen, Di
Luo, Bingcheng
Xu, Lei
Xia, Zian
Jia, Linhao
Qi, Shaomian
Tian, Congkuan
Chen, Kangyao
Cui, Hang
Chen, Guangyi
Yan, Shili
Huang, Miaoling
Cui, Jian
Feng, Ya
Wang, Zhentao
Xiao, Jiang
Zhang, Jianhua
Shindou, Ryuichi
Xie, X. C.
Chen, Jian-Hao
author_facet Chen, Di
Luo, Bingcheng
Xu, Lei
Xia, Zian
Jia, Linhao
Qi, Shaomian
Tian, Congkuan
Chen, Kangyao
Cui, Hang
Chen, Guangyi
Yan, Shili
Huang, Miaoling
Cui, Jian
Feng, Ya
Wang, Zhentao
Xiao, Jiang
Zhang, Jianhua
Shindou, Ryuichi
Xie, X. C.
Chen, Jian-Hao
contents Transport of spin angular momentum over large distance has been a long sought-after goal in the field of spintronics. While the majority of the research effort has been devoted to the spin transport properties of magnetically ordered materials, spin transport in magnetically frustrated materials has received little attention. Here, we report an anomalous state in frustrated hyperkagome magnetic insulator Gd3Ga5O12, where spin angular momenta can be transported over a long distance of 480 μm, far exceeding the transport distance of any diffusive spin current in magnetically ordered materials, to the best of our knowledge. Monte Carlo simulations reveal significant spin fluctuations, spin-spin correlations and an absence of conventional magnons in such anomalous state; while the response of the anomalous state to perturbation is found to be akin to an overdamped forced oscillator. We find close relation of such state to the correlated ``director'' state in the material. Our result provides an effective electrical technique to characterize spin-spin correlations and frustrations; it also unveils the potential of frustrated magnets as powerful channel materials for spin transport.
format Preprint
id arxiv_https___arxiv_org_abs_2601_22802
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Long-distance spin transport in frustrated hyperkagome magnet Gd3Ga5O12
Chen, Di
Luo, Bingcheng
Xu, Lei
Xia, Zian
Jia, Linhao
Qi, Shaomian
Tian, Congkuan
Chen, Kangyao
Cui, Hang
Chen, Guangyi
Yan, Shili
Huang, Miaoling
Cui, Jian
Feng, Ya
Wang, Zhentao
Xiao, Jiang
Zhang, Jianhua
Shindou, Ryuichi
Xie, X. C.
Chen, Jian-Hao
Materials Science
Transport of spin angular momentum over large distance has been a long sought-after goal in the field of spintronics. While the majority of the research effort has been devoted to the spin transport properties of magnetically ordered materials, spin transport in magnetically frustrated materials has received little attention. Here, we report an anomalous state in frustrated hyperkagome magnetic insulator Gd3Ga5O12, where spin angular momenta can be transported over a long distance of 480 μm, far exceeding the transport distance of any diffusive spin current in magnetically ordered materials, to the best of our knowledge. Monte Carlo simulations reveal significant spin fluctuations, spin-spin correlations and an absence of conventional magnons in such anomalous state; while the response of the anomalous state to perturbation is found to be akin to an overdamped forced oscillator. We find close relation of such state to the correlated ``director'' state in the material. Our result provides an effective electrical technique to characterize spin-spin correlations and frustrations; it also unveils the potential of frustrated magnets as powerful channel materials for spin transport.
title Long-distance spin transport in frustrated hyperkagome magnet Gd3Ga5O12
topic Materials Science
url https://arxiv.org/abs/2601.22802