Physical Reservoir Computing Using Tellurium-Based Gate-Tunable Artificial Photonic Synapses

油藏计算 光子学 材料科学 纳米技术 光电子学 计算机科学 人工神经网络 人工智能 循环神经网络 冶金
作者
Hyerin Jo,Jiseong Jang,Hyeon Jung Park,Huigu Lee,Sung Jin An,Jin Pyo Hong,Mun Seok Jeong,Hongseok Oh
出处
期刊:ACS Nano [American Chemical Society]
卷期号:18 (44): 30761-30773 被引量:21
标识
DOI:10.1021/acsnano.4c10489
摘要

) electrodes. A thorough investigation of the field-dependent persistent photoconductivity (PPC) of the Te channel revealed that the relaxation speed of the transient photocurrent depended on the gate bias. Utilizing the PPC property, the Te device served as an excellent photonic synapse under light pulse stimulus, exhibiting multiple synaptic characteristics such as excitatory postsynaptic current and paired-pulse facilitation, as well as highly linear potentiation-depression characteristics; a simulation-based study further confirmed the effectiveness of the device. Most importantly, by exploiting the nonlinear and fading memory characteristics of the Te photonic synapse, we demonstrate two advanced examples of PRC. In classifying handwritten digits, our system carried out successful digit recognition without binarization or another simplification process with reduced computational cost compared to conventional systems. To solve second-order nonlinear equations, we introduce the strategy of utilizing historical nodes. The combination of historical nodes and the gate-tunable responses of the photonic synapses, which provide an enriched reservoir state, yielded excellent prediction accuracy. Overall, this work will offer an understanding of Te-based optoelectronic devices and their synergetic integration with neuromorphic devices and PRC.
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