Antonio Hernando, Fernando Gálvez, Francisco Guinea
Published 2019-08-19Version 1
It is shown that magnetic forces as the Lorentz force, exerted on electric currents, and the force {\mu}Div(B), exerted on electron spins at rest, account for both the transverse spin imbalance typical of spin Hall effect and the transverse charge imbalance associated with pure spin currents (inverse spin Hall effect). Considering that for stationary currents the laboratory reference frame and those for which the spin up and spin down carriers are at rest are inertial systems, one can easily find the forces exerted by the lattice on both spin sub-bands, as well as the force between sub-bands.
Comments: 3 pages main body, 3 figures, 1 page supplementary information
Inverse Spin Hall Effect in Nonequilibrium Dirac Systems Induced by Anomalous Flow Imbalance
Experimental Observation of the Inverse Spin Hall Effect at Room Temperature
AC Voltage Generation by Spin Pumping and Inverse Spin Hall Effect
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