A new physical mechanism for generating spin-transfer torque is proposed. It is due to interference of bias driven nonequilibrium electrons incident on a switching junction with the electrons reflected from an insulating barrier inserted in the junction after the switching magnet. It is shown using the rigorous Keldysh formalism that this new out-of-plane torque T⊥ is proportional to an applied bias and is as large as the torque in a conventional junction generated by a strong charge current. However, the charge current and the in-plane torque T∥ are almost completely suppressed by the insulating barrier. This new junction thus offers the highly applicable possibility of bias-induced switching of magnetization without charge current.
@article{arxiv.1111.3196,
title = {New mechanism for generating spin transfer torque without charge current},
author = {G. Autès and J. Mathon and A. Umerski},
journal= {arXiv preprint arXiv:1111.3196},
year = {2015}
}