Design and Modeling of a Photonic Crystal Multiplexer Using Artificial Intelligence

Design and Modeling of a Photonic Crystal Multiplexer Using Artificial Intelligence

In this paper, design and modeling of an all-optical 2×1 multiplexer based on 2D photonic crystals and artificial neural networks (ANNs) are presented. The proposed structure aims to maximize the difference between the output powers in logical states, which is critical for enhancing the system abil...

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Bibliographic Details
Main Authors: P. Karami, S. I. Yahya, B. Palash, M. A. Chaudhary, M. Assaad, F. Parandin, S. Roshani, F. Hazzazi
Format: Article
Language:English
Published: Advanced Electromagnetics 2025-04-01
Series:Advanced Electromagnetics
Subjects:
Photonic crystals
optical multiplexer
all-optical systems
optical communications
silicon photonics
artificial neural networks
Online Access:http://aemjournal.org/index.php/AEM/article/view/2561
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Summary:In this paper, design and modeling of an all-optical 2×1 multiplexer based on 2D photonic crystals and artificial neural networks (ANNs) are presented. The proposed structure aims to maximize the difference between the output powers in logical states, which is critical for enhancing the system ability to distinguish between these states. In this study, an ANN model is employed to accurately predict the normalized output power of the designed photonic crystal multiplexer, providing a time-efficient alternative to conventional simulation methods for analyzing multiplexer behavior across various logical states. The results demonstrate significant improvements in signal separation and overall performance compared to previous works. Additionally, a detailed comparison of the normalized output power for different logic states is provided, highlighting the advantages of the proposed design.
ISSN:2119-0275

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