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Spin–Orbit Torque in Single-Molecule Junctions from <i>ab Initio</i>

María Camarasa‐Gómez, Daniel Hernangómez‐Pérez, Ferdinand Evers

2024The Journal of Physical Chemistry Letters13 citationsDOIOpen Access PDF

Abstract

The use of electric fields applied across magnetic heterojunctions that lack spatial inversion symmetry has been previously proposed as a nonmagnetic means of controlling localized magnetic moments through spin-orbit torques (SOT). The implementation of this concept at the single-molecule level has remained a challenge, however. Here, we present first-principles calculations of SOT in a single-molecule junction under bias and beyond linear response. Employing a self-consistency scheme invoking density functional theory and nonequilibrium Green's function theory including spin-orbit interaction, we compute the change of the magnetization with the bias voltage and the associated current-induced SOT. Within the linear regime our quantitative estimates for the SOT in single-molecule junctions yield values similar to those known for magnetic interfaces. Our findings contribute to an improved microscopic understanding of SOT in single molecules.

Topics & Concepts

Condensed matter physicsAb initioDensity functional theoryPhysicsNon-equilibrium thermodynamicsMagnetizationSpin (aerodynamics)Ab initio quantum chemistry methodsPoint reflectionMagnetic fieldMoleculeQuantum mechanicsThermodynamicsMolecular Junctions and NanostructuresMagnetic properties of thin filmsQuantum and electron transport phenomena
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