Inverse‐Designed On‐Chip Orbital Angular Momentum Mode Converter for Optical Convolution Acceleration
Yumeng Chen, Kuo Zhang, Kun Liao, Xiaoyong Hu, Qihuang Gong

TL;DR
This paper introduces an on-chip device that efficiently converts and multiplexes orbital angular momentum (OAM) modes to accelerate optical neural networks.
Contribution
The novel contribution is an inverse-designed on-chip OAM mode converter and multiplexer with high efficiency and integration into an optical convolutional neural network.
Findings
The OAM mode converter achieves up to 88.68% up-conversion efficiency and 88.04% down-conversion efficiency.
An OAM-encoded optical CNN achieves 98.0% accuracy on MNIST and 86.1% on Fashion-MNIST classification.
Abstract
Optical neural networks leverage the inherent parallelism of light to multiplex across various degrees of freedom including wavelength, polarization, and modes. Among these, orbital angular momentum (OAM), possessing a theoretically infinite number of orthogonal mode dimensions, holds significant potential for constructing optical neural networks. However, OAM conversion and multiplexing on integrated photonic chips remain challenging. Here, we present an on‐chip OAM mode converter and multiplexer device based on inverse design. The OAM mode converter achieves maximum up‐conversion efficiency of 88.68% (OAM−1→−2), maximum down‐conversion efficiency of 88.04% (OAM−3→−1), and maximum modulation depth of 4.07 dB (OAM+1→+3). Besides, the OAM±1,±2 multiplexer achieves maximum conversion efficiency of 98.29% and maximum modulation depth of 20.69 dB. Subsequently, we demonstrate an OAM‐encoded…
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Taxonomy
TopicsPhotonic and Optical Devices · Optical Network Technologies · Advanced Fiber Laser Technologies
