Spin-Orbit Based Coherent Spin Ratchets
Abstract
The concept of ratchets, driven asymmetric periodic structures giving rise to directed particle flow, has recently been generalized to a quantum ratchet mechanism for spin currents mediated through spin-orbit interaction. Here we consider such systems in the coherent mesoscopic regime and generalize the proposal of a minimal spin ratchet model based on a non-interacting clean quantum wire with two transverse channels by including disorder and by self-consistently treating the charge redistribution in the nonlinear (adiabatic) ac-driving regime. Our Keldysh-Green function based quantum transport simulations show that the spin ratchet mechanism is robust and prevails for disordered, though non-diffusive, mesoscopic structures. Extending the two-channel to the multi-channel case does not increase the net ratchet spin current efficiency but, remarkably, yields a dc spin transmission increasing linearly with channel number.
Cite
@article{arxiv.1004.5279,
title = {Spin-Orbit Based Coherent Spin Ratchets},
author = {Matthias Scheid and Dario Bercioux and Klaus Richter},
journal= {arXiv preprint arXiv:1004.5279},
year = {2015}
}
Comments
23 pages, 7 figures; to be published in Chemical Physics