Litcius/Paper detail

Spin-Orbital Altermagnetism

Zi-Ming Wang, Yang Zhang, Song-Bo Zhang, Jinhua Sun, Elbio Dagotto, Dong-Hui Xu, Lun‐Hui Hu

2025Physical Review Letters11 citationsDOI

Abstract

Altermagnetism is a newly discovered magnetic phase, characterized by nonrelativistic spin splitting that has been experimentally observed. Here, we introduce a framework dubbed "spin-orbital altermagnetism" to achieve spin-orbital textures in altermagnetic materials. We identify two distinct classes of spin-orbital altermagnetism: intrinsic and extrinsic. The intrinsic type emerges from symmetry-compensated magnetic orders with spontaneously broken parity-time symmetry, while the extrinsic type stems from translational symmetry breaking between sublattices, as exemplified by the Jahn-Teller-driven structural phase transition. In addition to directly measuring the spin-orbital texture, we propose spin conductivity and spin-resolved orbital polarization as effective methods for detecting these altermagnets. Additionally, a symmetry-breaking mechanism induces weak spin magnetization, further revealing the peculiar feature of spin-orbital altermagnetism. We also utilize the staggered susceptibility to illustrate a potential realization of this phase in a two-orbital interacting system. Our Letter provides a new platform to explore spin-orbital locked physics, extending the materials classes that may display complex spin textures from the standard 4d-5d compounds to 3d compounds.

Topics & Concepts

PhysicsTranslational symmetryRealization (probability)Spin (aerodynamics)Symmetry breakingCondensed matter physicsPolarization (electrochemistry)Symmetry (geometry)Phase (matter)Geometric phaseSpin polarizationTheoretical physicsSpin engineeringQuantum mechanicsMirror symmetryType (biology)Feature (linguistics)MagnetizationSpontaneous symmetry breakingMultiferroics and related materialsMagnetic and transport properties of perovskites and related materialsAdvanced Condensed Matter Physics
Spin-Orbital Altermagnetism | Litcius