We show how a charge current through a single antiferromagnetic layer can excite and control self-oscillations. Sustained oscillations with tunable amplitudes and frequencies are possible in a variety of geometries using certain classes of non-centrosymmetric materials that exhibit finite dissipative spin-orbit torque. We compute the steady-state phase diagram as a function of the current and spin-orbit torque magnitude. The anisotropic magnetoresistance causes the conversion of the resulting AF oscillations to a terahertz AC output voltage. These findings provide an attractive and novel route to design terahertz antiferromagnetic spin-orbit torque oscillators in simple single-layer structures.
@article{arxiv.1808.10182,
title = {Antiferromagnetic Single-layer Spin-Orbit Torque Oscillators},
author = {Roberto E. Troncoso and Karsten Rode and Plamen Stamenov and J. Michael D. Coey and Arne Brataas},
journal= {arXiv preprint arXiv:1808.10182},
year = {2019}
}