Litcius/Paper detail

All‐Optical‐Controlled Excitatory and Inhibitory Synaptic Signaling through Bipolar Photoresponse of an Oxide‐Based Phototransistor

Yen‐Cheng Mi, Ching‐Hsiang Yang, Li‐Chung Shih, Jen‐Sue Chen

2023Advanced Optical Materials35 citationsDOIOpen Access PDF

Abstract

Abstract Using light signals for computation and communication is a vital approach for advanced neuromorphic designs. In this study, an all‐optical‐controlled IGZO/ZrO x phototransistor is demonstrated to emulate synaptic functions via both positive and negative photoresponse arisen from the ionization of neutral oxygen vacancies ( V O ) and metalmetal bonding (MM) defects in IGZO at an illumination with visible light (405 and 520 nm) and near‐infrared light (750, 890, and 980 nm), respectively. With the coupling effect of photogenerated electrons and the charged MM ++ defect scattering, the IGZO/ZrO x photosynaptic transistor not only shows broadband photosensing performance but also emulates the excitatory/inhibitory contrasting synaptic functions, such as learning‐ and regulating‐experience behavior of human brain, via applying 405 and 890 nm light pulses, respectively. The all‐optical‐controlled IGZO/ZrO x photosynaptic transistor therefore may convey optical information effectually for the streaming sensor processing in biologically inspired computer vision application.

Topics & Concepts

Materials scienceNeuromorphic engineeringOptoelectronicsInhibitory postsynaptic potentialExcitatory postsynaptic potentialPhotodiodeTransistorUltravioletComputer scienceNeuroscienceArtificial neural networkElectrical engineeringVoltageBiologyEngineeringMachine learningAdvanced Memory and Neural ComputingNeural Networks and Reservoir ComputingCCD and CMOS Imaging Sensors