Author:
Martins Leandro,Jenkins Alex S.,Alvarez Lara San Emeterio,Borme Jérôme,Böhnert Tim,Ventura João,Freitas Paulo P.,Ferreira Ricardo
Abstract
AbstractIn this work, a new mechanism to combine a non-volatile behaviour with the spin diode detection of a vortex-based spin torque nano-oscillator (STVO) is presented. Experimentally, it is observed that the spin diode response of the oscillator depends on the vortex chirality. Consequently, fixing the frequency of the incoming signal and switching the vortex chirality results in a different rectified voltage. In this way, the chirality can be deterministically controlled via the application of electrical signals injected locally in the device, resulting in a non-volatile control of the output voltage for a given input frequency. Micromagnetic simulations corroborate the experimental results and show the main contribution of the Oersted field created by the input RF current density in defining two distinct spin diode detections for different chiralities. By using two non-identical STVOs, we show how these devices can be used as programmable non-volatile synapses in artificial neural networks.
Funder
Fundação para a Ciência e a Tecnologia
European Union's Horizon 2020
European Union’s Horizon 2020
Publisher
Springer Science and Business Media LLC
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