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Critical role of orbital hybridization in the Dzyaloshinskii-Moriya interaction of magnetic interfaces

Lijun Zhu, Lujun Zhu, Xin Ma, Xiaoqin Li, R. A. Buhrman

2022Communications Physics24 citationsDOIOpen Access PDF

Abstract

Abstract Dzyaloshinskii-Moriya interaction (DMI), an interfacial spin-orbit coupling (ISOC)-related effect, has become foundational for spintronic research and magnetic memory and computing technologies. However, the underlying mechanism of DMI, including the quantitative role of ISOC, has remained a long-standing unsettled problem due to the great challenge in quantifying and widely tuning ISOC strength in a strong DMI material system. Here, we find that DMI, ISOC, and orbital hybridization at the model magnetic interface Au 1- x Pt x /Co can be quantified and tuned significantly at the same time through the composition of the Au 1- x Pt x , without varying the bulk SOC and the electronegativity. From this ability, we establish that the widespread expectation that DMI should scale in linear proportion to ISOC breaks down at the Au 1- x Pt x /Co interface where degree of orbital hybridization varies with the Au 1- x Pt x composition and that the unexpected DMI behaviors can be understood well by the critical role of orbital hybridization. Our study provides a quantitative frame for comprehensively understanding interfacial DMI of various magnetic interfaces and establishes orbital hybridization as a new degree of freedom for controlling DMI in high-performance chiral domain wall/skyrmion devices and ultrafast magnetic tunnel junctions.

Topics & Concepts

SpintronicsCondensed matter physicsElectronegativityPhysicsCoupling (piping)FerromagnetismMaterials scienceQuantum mechanicsMetallurgyMagnetic properties of thin filmsAdvanced Condensed Matter PhysicsMagnetic and transport properties of perovskites and related materials