Hauptseite > Publikationsdatenbank > Direct and inverse spin-orbit torques > MARC 
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000203245 0247_ $$2doi$$a10.1103/PhysRevB.92.064415
000203245 0247_ $$2ISSN$$a0163-1829
000203245 0247_ $$2ISSN$$a0556-2805
000203245 0247_ $$2ISSN$$a1095-3795
000203245 0247_ $$2ISSN$$a1098-0121
000203245 0247_ $$2ISSN$$a1550-235X
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000203245 1001_ $$0P:(DE-Juel1)130643$$aFreimuth, Frank$$b0$$eCorresponding author$$ufzj
000203245 245__ $$aDirect and inverse spin-orbit torques
000203245 260__ $$aCollege Park, Md.$$bAPS$$c2015
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000203245 520__ $$aIn collinear magnets lacking inversion symmetry, application of electric currents induces torques on the magnetization and conversely magnetization dynamics induces electric currents. The two effects, which both rely on spin-orbit interaction, are reciprocal to each other and denoted direct spin-orbit torque (SOT) and inverse spin-orbit torque (ISOT), respectively. We derive expressions for SOT and ISOT within the Kubo linear-response formalism. We show that expressions suitable for density-functional theory calculations can be derived either starting from a Kohn-Sham Hamiltonian with time-dependent exchange field or by expressing general susceptibilities in terms of the Kohn-Sham susceptibilities. For the case of magnetic bilayer systems we derive the general form of the ISOT current induced under ferromagnetic resonance. Using ab initio calculations within density-functional theory, we investigate SOT and ISOT in Co/Pt(111) magnetic bilayers. We determine the spatial distribution of spin and charge currents as well as torques in order to expose the mechanisms underlying SOT and ISOT and to highlight their reciprocity on the microscopic level. We find that the spin Hall effect is position dependent close to interfaces.
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000203245 7001_ $$0P:(DE-Juel1)130548$$aBlügel, Stefan$$b1$$ufzj
000203245 7001_ $$0P:(DE-Juel1)130848$$aMokrousov, Yuriy$$b2$$ufzj
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