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Auteurs principaux: Xie, Wu, Liu, Changchao, Zhang, Fayuan, Tan, Zhenhong, Ji, Wenhai, Zhao, Nan, Bao, Lingxiang, Zhang, Dong, Shen, Feiran, He, Lunhua, Wang, Hao, Du, Rong, Cao, Guanghan, Chen, Chaoyu, Miao, Ping
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2604.17365
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author Xie, Wu
Liu, Changchao
Zhang, Fayuan
Tan, Zhenhong
Ji, Wenhai
Zhao, Nan
Bao, Lingxiang
Zhang, Dong
Shen, Feiran
He, Lunhua
Wang, Hao
Du, Rong
Cao, Guanghan
Chen, Chaoyu
Miao, Ping
author_facet Xie, Wu
Liu, Changchao
Zhang, Fayuan
Tan, Zhenhong
Ji, Wenhai
Zhao, Nan
Bao, Lingxiang
Zhang, Dong
Shen, Feiran
He, Lunhua
Wang, Hao
Du, Rong
Cao, Guanghan
Chen, Chaoyu
Miao, Ping
contents Altermagnetism, known for its non-relativistic spin-split band structures with yet compensated moments, is being intensively investigated. Discovering new altermagnetic materials with characteristics suitable for practical use remains an important ongoing task. Recently a metallic room-temperature altermagnet candidate Rb1-xV2Te2O with a layered structure and d-wave spin symmetry has been reported based on experimental results from the spin-resolved photoemission spectroscopy and scanning tunnelling microscopy/spectroscopy (STM/STS) measurements. Here we report neutron powder diffraction (NPD) investigations on the magnetic structure of Rb1-xV2Te2O, which shows a G-type antiferromagnetic structure below the transition temperature of 337 K. The result is different from the original theoretical expectation, which might lead to new insights on the physics of this altermagnet candidate.
format Preprint
id arxiv_https___arxiv_org_abs_2604_17365
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle G-type antiferromagnetic structure in Rb1-xV2Te2O
Xie, Wu
Liu, Changchao
Zhang, Fayuan
Tan, Zhenhong
Ji, Wenhai
Zhao, Nan
Bao, Lingxiang
Zhang, Dong
Shen, Feiran
He, Lunhua
Wang, Hao
Du, Rong
Cao, Guanghan
Chen, Chaoyu
Miao, Ping
Materials Science
Strongly Correlated Electrons
Quantum Physics
Altermagnetism, known for its non-relativistic spin-split band structures with yet compensated moments, is being intensively investigated. Discovering new altermagnetic materials with characteristics suitable for practical use remains an important ongoing task. Recently a metallic room-temperature altermagnet candidate Rb1-xV2Te2O with a layered structure and d-wave spin symmetry has been reported based on experimental results from the spin-resolved photoemission spectroscopy and scanning tunnelling microscopy/spectroscopy (STM/STS) measurements. Here we report neutron powder diffraction (NPD) investigations on the magnetic structure of Rb1-xV2Te2O, which shows a G-type antiferromagnetic structure below the transition temperature of 337 K. The result is different from the original theoretical expectation, which might lead to new insights on the physics of this altermagnet candidate.
title G-type antiferromagnetic structure in Rb1-xV2Te2O
topic Materials Science
Strongly Correlated Electrons
Quantum Physics
url https://arxiv.org/abs/2604.17365