101. An Experimental Study Of The Photoresponse Of 1T-1R Oscillators Based On Vanadium Dioxide: Towards Spiking Sensing Systems
- Author
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Olivier J. F. Martin, Adrian M. Ionescu, Teodor Rosca, Marco Riccardi, and Fatemeh Qaderi
- Subjects
Materials science ,metal-to-insulator transition ,vanadium dioxide ,business.industry ,tunable oscillator ,laser illumination ,Linearity ,Radiation ,Laser ,law.invention ,Wavelength ,Light intensity ,Transducer ,Neuromorphic engineering ,law ,Optoelectronics ,business ,Visible spectrum - Abstract
In this work we investigate the effect of visible light radiation on compact 1T-1R relaxation spiking oscillator cells based on 2-terminal Vanadium dioxide (VO 2 ) structures. We illuminate the devices using a tunable wavelength laser between 400 and 850 nm at power levels ranging from 1 to 70 mW. We observe a strong dependence between the insulator-to-metal switching thresholds of VO 2 and the power and wavelength of incident radiation. In addition, we find that the dependence of DC switching characteristics (switching thresholds, R OFF and R ON ) on light intensity clearly affects the free running frequency of the 1T-1 R oscillator, which enables the circuit to function as a power-to-frequency transducer across a wide of wavelengths in the visible spectrum. Excellent transducing linearity of the proposed light-to-frequency conversion is reported in all investigated visible light spectrum. This work is a significant step forward in the field of spiking VO 2 oscillators as light transducers for future IoT and neuromorphic applications.