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Designing Spin Symmetry for Altermagnetism with Strong Magnetoelectric Coupling.


ABSTRACT: Altermagnets, a recently identified class of collinear magnets, exhibit unique properties such as zero net magnetization and spin polarization dictated by lattice symmetry, making them a subject of intense research. In contrast to conventional strategies for inducing altermagnetism in antiferromagnets that rely on manipulating real-space symmetry, this work introduces a novel and general approach to achieving altermagnetism by modulating spin-space symmetry. Through a combination of tight-binding models and first-principles calculations, the microscopic origin of altermagnetism driven by spin-space symmetry is uncovered, and the mechanism underlying enhanced spin splitting is identified. Furthermore, it is demonstrated that this spin-space modulation can synergistically interact with ferroelectricity, enabling a spin symmetry-dependent magnetoelectric coupling mechanism that is distinct from conventional multiferroics. This unique coupling is validated by the magneto-optical Kerr effect, providing a robust theoretical foundation for the development of next-generation spintronic devices that harness the potential of altermagnetism.

SUBMITTER: Sun W 

PROVIDER: S-EPMC12376617 | biostudies-literature | 2025 Aug

REPOSITORIES: biostudies-literature

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Designing Spin Symmetry for Altermagnetism with Strong Magnetoelectric Coupling.

Sun Wei W   Wang Wenxuan W   Yang Changhong C   Huang Shifeng S   Ding Ning N   Dong Shuai S   Cheng Zhenxiang Z  

Advanced science (Weinheim, Baden-Wurttemberg, Germany) 20250617 30


Altermagnets, a recently identified class of collinear magnets, exhibit unique properties such as zero net magnetization and spin polarization dictated by lattice symmetry, making them a subject of intense research. In contrast to conventional strategies for inducing altermagnetism in antiferromagnets that rely on manipulating real-space symmetry, this work introduces a novel and general approach to achieving altermagnetism by modulating spin-space symmetry. Through a combination of tight-bindin  ...[more]

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