Large Band Splitting in    g   -Wave Altermagnet CrSb

Ding, Jianyang; Jiang, Zhicheng; Chen, Xiuhua; Tao, Zicheng; Liu, Zhengtai; Li, Tongrui; Liu, Jishan; Sun, Jianping; Cheng, Jinguang; Liu, Jiayu; Yang, Yichen; Zhang, Runfeng; Deng, Liwei; Jing, Wenchuan; Huang, Yucheng; Shi, Yuming; Ye, Mao; Qiao, Shan; Wang, Yilin; Guo, Yanfeng; Feng, Donglai; Shen, Dawei

doi:10.1103/physrevlett.133.206401

articlePhysical Review LettersNov 13, 2024LVClosed access

Large Band Splitting in g -Wave Altermagnet CrSb

JDJianyang Ding ZJZhicheng Jiang XCXiuhua Chen ZTZicheng Tao ZLZhengtai Liu

University of Science and Technology of China · Chinese Academy of Sciences · +6 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Altermagnetism (AM), a newly discovered magnetic state, ingeniously integrates the properties of ferromagnetism and antiferromagnetism, representing a significant breakthrough in the field of magnetic materials. Despite experimental verification of some typical AM materials, such as MnTe and MnTe_{2}, the pursuit of AM materials that feature larger spin splitting and higher transition temperature is still essential. Here, our research focuses on CrSb, which possesses Néel temperature of up to 700 K and giant spin splitting near the Fermi level (E_{F}). Utilizing high-resolution angle-resolved photoemission spectroscopy and density functional theory calculations, we meticulously map the three-dimensional…

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Physics
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