Nonlinear analog spintronics with van der Waals heterostructures
Abstract
The current generation of spintronic devices, which use electron-spin relies on linear operations for spin-injection, transport and detection processes. The existence of nonlinearity in a spintronic device is indispensable for spin-based complex signal processing operations. Here we for the first time demonstrate the presence of electron-spin dependent nonlinearity in a spintronic device, and measure up to 4th harmonic spin-signals via nonlocal spin-valve and Hanle spin-precession measurements. We demonstrate its application for analog signal processing over pure spin-signals such as amplitude modulation and heterodyne detection operations which require nonlinearity as an essential element. Furthermore, we show that the presence of nonlinearity in the spin-signal has an amplifying effect on the energy-dependent conductivity induced nonlinear spin-to-charge conversion effect. The interaction of the two spin-dependent nonlinear effects in the spin transport channel leads to a highly efficient detection of the spin-signal without using ferromagnets. These effects are measured both at 4K and room temperature, and are suitable for their applications as nonlinear circuit elements in the fields of advanced-spintronics and spin-based neuromorphic computing.
Keywords
Cite
@article{arxiv.2004.10285,
title = {Nonlinear analog spintronics with van der Waals heterostructures},
author = {S. Omar and M. Gurram and K. Watanabe and T. Taniguchi and M. H. D. Guimarães and B. J. van Wees},
journal= {arXiv preprint arXiv:2004.10285},
year = {2021}
}
Comments
14 pages, 8 figures