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Main Authors: Mali, Subin, Zhao, Yufei, Wang, Yu, Sarker, Saugata, Chen, Yangyang, Li, Zixuan, Zhu, Jun, Liu, Ying, Gopalan, Venkatraman, Yan, Binghai, Mao, Zhiqiang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.18144
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author Mali, Subin
Zhao, Yufei
Wang, Yu
Sarker, Saugata
Chen, Yangyang
Li, Zixuan
Zhu, Jun
Liu, Ying
Gopalan, Venkatraman
Yan, Binghai
Mao, Zhiqiang
author_facet Mali, Subin
Zhao, Yufei
Wang, Yu
Sarker, Saugata
Chen, Yangyang
Li, Zixuan
Zhu, Jun
Liu, Ying
Gopalan, Venkatraman
Yan, Binghai
Mao, Zhiqiang
contents X-ray and neutron diffraction are foundational tools for determining crystal structures, but their resolution limits can lead to misassignments, especially in materials with subtle distortions or competing phases. Here, we demonstrate the use of nonlinear transport as a complementary approach to uncover hidden crystal symmetries, using the strongly correlated Ca$_3$Ru$_2$O$_7$ as a case study. Below 48 K (T$_S$), where the magnetic moments of the antiferromagnetic phase reorient from the a- to the b-axis, leading to a pseudogap opening, our measurements, with support of DFT, reveal a previously overlooked lower-symmetry phase. This is manifested by the emergence of longitudinal nonlinear resistance (NLR) along the b-axis below T$_S$, providing direct evidence of combined translational and time-reversal symmetry breaking. This response also suggests a transformation from a conventional antiferromagnet into an altermagnet. The lower-symmetry phase arises from a subtle lattice distortion (~0.1 pm) associated with the magnetic transition at T$_S$, below the detection limit of conventional diffraction. Moreover, this NLR below T$_S$ is accompanied by a nonlinear Hall effect, both of which are enhanced by the large quantum metric associated with Weyl chains near the Fermi surface. Our findings demonstrate nonlinear transport as a sensitive probe of hidden symmetry breaking and altermagnetism, complementing and extending beyond the reach of traditional diffraction and spectroscopic techniques.
format Preprint
id arxiv_https___arxiv_org_abs_2510_18144
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Probing Hidden Symmetry and Altermagnetism with Sub-Picometer Sensitivity via Nonlinear Transport
Mali, Subin
Zhao, Yufei
Wang, Yu
Sarker, Saugata
Chen, Yangyang
Li, Zixuan
Zhu, Jun
Liu, Ying
Gopalan, Venkatraman
Yan, Binghai
Mao, Zhiqiang
Strongly Correlated Electrons
Materials Science
X-ray and neutron diffraction are foundational tools for determining crystal structures, but their resolution limits can lead to misassignments, especially in materials with subtle distortions or competing phases. Here, we demonstrate the use of nonlinear transport as a complementary approach to uncover hidden crystal symmetries, using the strongly correlated Ca$_3$Ru$_2$O$_7$ as a case study. Below 48 K (T$_S$), where the magnetic moments of the antiferromagnetic phase reorient from the a- to the b-axis, leading to a pseudogap opening, our measurements, with support of DFT, reveal a previously overlooked lower-symmetry phase. This is manifested by the emergence of longitudinal nonlinear resistance (NLR) along the b-axis below T$_S$, providing direct evidence of combined translational and time-reversal symmetry breaking. This response also suggests a transformation from a conventional antiferromagnet into an altermagnet. The lower-symmetry phase arises from a subtle lattice distortion (~0.1 pm) associated with the magnetic transition at T$_S$, below the detection limit of conventional diffraction. Moreover, this NLR below T$_S$ is accompanied by a nonlinear Hall effect, both of which are enhanced by the large quantum metric associated with Weyl chains near the Fermi surface. Our findings demonstrate nonlinear transport as a sensitive probe of hidden symmetry breaking and altermagnetism, complementing and extending beyond the reach of traditional diffraction and spectroscopic techniques.
title Probing Hidden Symmetry and Altermagnetism with Sub-Picometer Sensitivity via Nonlinear Transport
topic Strongly Correlated Electrons
Materials Science
url https://arxiv.org/abs/2510.18144