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Colossal anisotropic absorption of spin currents induced by chirality

Rui Sun, Z. Wang, Brian P. Bloom, Andrew H. Comstock, Cong Yang, Aeron McConnell, Caleb Clever, Mary Molitoris, Daniel N. Lamont, Zhao‐Hua Cheng, Zhe Yuan, Wei Zhang, Axel Hoffmann, Jùn Líu, David H. Waldeck, Dali Sun

2024Science Advances23 citationsDOIOpen Access PDF

Abstract

The chiral induced spin selectivity (CISS) effect, in which the structural chirality of a material determines the preference for the transmission of electrons with one spin orientation over that of the other, is emerging as a design principle for creating next-generation spintronic devices. CISS implies that the spin preference of chiral structures persists upon injection of pure spin currents and can act as a spin analyzer without the need for a ferromagnet. Here, we report an anomalous spin current absorption in chiral metal oxides that manifests a colossal anisotropic nonlocal Gilbert damping with a maximum-to-minimum ratio of up to 1000%. A twofold symmetry of the damping is shown to result from differential spin transmission and backscattering that arise from chirality-induced spin splitting along the chiral axis. These studies reveal the rich interplay of chirality and spin dynamics and identify how chiral materials can be implemented to direct the transport of spin current.

Topics & Concepts

Chirality (physics)Condensed matter physicsSpin (aerodynamics)SpintronicsSpin Hall effectAnisotropySpin pumpingElectronFerromagnetismAbsorption (acoustics)PhysicsMaterials scienceSpin polarizationSymmetry breakingQuantum mechanicsOpticsChiral symmetry breakingNambu–Jona-Lasinio modelThermodynamicsMagnetic properties of thin filmsMultiferroics and related materialsAdvanced Memory and Neural Computing
Colossal anisotropic absorption of spin currents induced by chirality | Litcius