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Optical activation function using a metamaterial waveguide for an all-optical neural network

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posted on 2024-08-24, 08:50 authored by Honda Yoshihiro, Yuya Shoji, Tomo Amemiya
In this study, we experimentally demonstrated that the nonlinear optical coefficient of the original Si can be enhanced by incorporating a metamaterial structure into an existing silicon waveguide. The two-photon absorption coefficient enhanced by the metamaterial structure was 424 cm/GW, which is 1.2×10³ times higher than that of Si. Using this metamaterial waveguide–based nonlinear optical activation function, we achieved a high inference accuracy of 98.36% in the handwritten character recognition task, comparable to that obtained with the ReLU function as the activation function. Therefore, our approach can contribute to the realization of more power-efficient and compact all-optical neural networks.

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Funder Name

Japan Society for the Promotion of Science (#22H01520); Adaptable and Seamless Technology Transfer Program through Target-Driven R and D (JPMJTR22RG); Adopting Sustainable Partnerships for Innovative Research Ecosystem

Preprint ID

116837

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