Hamed Ben Mohamed Saidaoui scite author profile

Current-driven spin torques in metallic spin valves composed of antiferromagnets are theoretically studied using the nonequilibrium Green's function method implemented on a tight-binding model. We focus our attention on G-type and L-type antiferromagnets in both clean and disordered regimes. In such structures, spin torques can either rotate the magnetic order parameter coherently (coherent torque) or compete with the internal antiferromagnetic exchange (exchange torque). We show that, depending on the symmetry of the spin valve, the coherent and exchange torques can either be in the plane, ∝ n × (q × n) or out of the plane ∝ n × q, where q and n are the directions of the order parameter of the polarizer and the free antiferromagnetic layers, respectively. Although disorder conserves the symmetry of the torques, it strongly reduces the torque magnitude, pointing out the need for momentum conservation to ensure strong spin torque in antiferromagnetic spin valves.

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Publisher's Note: Spin transfer torque in antiferromagnetic spin valves: From clean to disordered regimes [Phys. Rev. B89, 174430 (2014)]

Saidaoui¹,

Manchon²,

Waintal³

2014

Phys. Rev. B

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Erratum: Spin transfer torque in antiferromagnetic spin valves: From clean to disordered regimes [Phys. Rev. B89, 174430 (2014)]

Saidaoui¹,

Manchon²,

Waintal³

2016

Phys. Rev. B

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Crossover between spin swapping and Hall effect in disordered systems

2015

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Crossover between spin swapping and Hall effect in disordered systems We theoretically study the crossover between spin Hall effect and spin swapping, a recently predicted phenomenon that consists of the interchange between the current flow and its spin polarization directions [M. B. Lifshits and M. I. Dyakonov, Phys. Rev. Lett. 103, 186601 (2009)]. Using a tight-binding model with spin-orbit coupled disorder, spin Hall effect, spin relaxation, and spin swapping are treated on equal footing. We demonstrate that spin swapping and spin Hall effect present very different dependencies as a function of the spin-orbit coupling and disorder strengths and confirm that the former exceeds the latter in the parameter range considered. Three setups are proposed for the experimental observation of the spin swapping effect. KAUST Repository

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