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Symmetry-Breaking Magneto-Optical Effects in Altermagnets

Jiuyu Sun, Yongping Du, Erjun Kan

2025Nano Letters10 citationsDOI

Abstract

The recently discovered altermagnets (AMs) are promising for novel spintronics, while experimentally distinguishing them, especially yet-synthesized two-dimensional candidates, from conventional antiferromagnets (AFMs) remains a challenge. Here, we investigate strain-engineered magneto-optical responses in AMs and reveal the underlying mechanism with a crystal-field picture. Symmetry analysis reveals that uniaxial strain can selectively break rotation or mirror symmetries in AMs while preserving PT symmetry in AFMs, thereby activating distinct magneto-optical responses (e.g., optical absorption and Kerr rotation) unique to AMs. First-principles calculations across prototypical systems, including a semiconducting V 2 Se 2 O monolayer and metallic CrSb bulk, show that the strain-induced optical signatures are significant enough for conventional optical measurements. Our work establishes a rapid, noninvasive characterization methodology for altermagnetism across material platforms, accelerating its exploration for spin-based technologies.

Topics & Concepts

MonolayerSymmetry (geometry)Materials scienceCondensed matter physicsCharacterization (materials science)Rotation (mathematics)Kerr effectPhysicsAbsorption (acoustics)Work (physics)Optical phenomenaHomogeneous spaceMechanism (biology)Chemical physicsMirror symmetryChemistryMetalMagneto-Optical Properties and ApplicationsMagnetic properties of thin filmsTopological Materials and Phenomena
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