Journal ArticleOpen Access
Optically Tunable Electrical Oscillations in Oxide‐Based Memristors for Neuromorphic Computing
Authors
Author Affiliations
Australian National University, The University of Western Australia, UNSW Sydney, Jahangirnagar University, ...
Published InAdvanced Materials
Year2024
Citations47
Abstract
Abstract The application of hardware‐based neural networks can be enhanced by integrating sensory neurons and synapses that enable direct input from external stimuli. This work reports direct optical control of an oscillatory neuron based on volatile threshold switching in V 3 O 5 . The devices exhibit electroforming‐free operation with switching parameters that can be tuned by optical illumination. Using temperature‐dependent electrical measurements, conductive atomic force microscopy (C‐AFM), in situ thermal imaging, and lumped element modelling, it is shown that the changes in switching parameters, including threshold and hold voltages, arise from overall conductivity increase of the oxide film due to the contribution of both photoconductive and bolometric characteristics of V 3 O 5 , which eventually affects the oscillation…
View at Publisher
BORR does not host full-text PDFs. The button above takes you to the original publisher.