Coupled Spin-Orbital p-Wave Magnetism via Structural and Magnetic Chirality
Abstract
Helical spin textures represent the minimal realization of p-wave magnetism which is characterized by momentum-odd spin polarization. Independently, structurally chiral crystals exhibit momentum-odd orbital polarization arising from broken inversion symmetry. Here, we demonstrate that spin-orbit coupling couples these two independent microscopic chirality degrees of freedom, allowing the orbital polarization of a chiral crystal to generate an additional contribution to the p-wave spin splitting. The resulting spin-orbital state is naturally classified by the relative chirality η=χ cχ m, giving rise to two symmetry-distinct p-wave phases corresponding to homochiral and heterochiral configurations which can be directly probed by the longitudinal conductivity. These phases exhibit distinct transport signatures, establishing a unified framework linking orbitronics and unconventional magnetism through coupled spin-orbital p-wave order.
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