Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons
We theoretically investigate the plasmonic properties of mid-infrared graphene-based metamaterials and apply deep learning of a neural network for the inverse design. These artificial structures have square periodic arrays of graphene plasmonic resonators deposited on dielectric thin films. Optical...
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oai:localhost:PNK-4032022-08-17T05:54:37Z Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons Phan, Anh D. Nguyen, Cuong V. Pham, T. Linh Tran, V. Huynh Vu, D. Lam Le, Anh-Tuan Wakabayashi, Katsunori graphene metamaterials deep learning inverse design plasmonics We theoretically investigate the plasmonic properties of mid-infrared graphene-based metamaterials and apply deep learning of a neural network for the inverse design. These artificial structures have square periodic arrays of graphene plasmonic resonators deposited on dielectric thin films. Optical spectra vary significantly with changes in structural parameters. To validate our theoretical approach, we carry out finite difference time domain simulations and compare computational results with theoretical calculations. Quantitatively good agreements among theoretical predictions, simulations, and previous experiments allow us to employ this proposed theoretical model to generate reliable data for training and testing deep neural networks. By merging the pre-trained neural network with the inverse network, we implement calculations for inverse design of the graphene-based metameterials. We also discuss the limitation of the data-driven approach. 2020-06-26T06:45:15Z 2020-06-26T06:45:15Z 2020 Article Working Paper https://dlib.phenikaa-uni.edu.vn/handle/PNK/403 https://doi.org/10.3390/cryst10020125 en application/pdf MDPI |
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graphene metamaterials deep learning inverse design plasmonics |
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graphene metamaterials deep learning inverse design plasmonics Phan, Anh D. Nguyen, Cuong V. Pham, T. Linh Tran, V. Huynh Vu, D. Lam Le, Anh-Tuan Wakabayashi, Katsunori Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons |
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We theoretically investigate the plasmonic properties of mid-infrared graphene-based metamaterials and apply deep learning of a neural network for the inverse design. These artificial structures have square periodic arrays of graphene plasmonic resonators deposited on dielectric thin films. Optical spectra vary significantly with changes in structural parameters. To validate our theoretical approach, we carry out finite difference time domain simulations and compare computational results with theoretical calculations. Quantitatively good agreements among theoretical predictions, simulations, and previous experiments allow us to employ this proposed theoretical model to generate reliable data for training and testing deep neural networks. By merging the pre-trained neural network with the inverse network, we implement calculations for inverse design of the graphene-based metameterials. We also discuss the limitation of the data-driven approach. |
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Article |
author |
Phan, Anh D. Nguyen, Cuong V. Pham, T. Linh Tran, V. Huynh Vu, D. Lam Le, Anh-Tuan Wakabayashi, Katsunori |
author_facet |
Phan, Anh D. Nguyen, Cuong V. Pham, T. Linh Tran, V. Huynh Vu, D. Lam Le, Anh-Tuan Wakabayashi, Katsunori |
author_sort |
Phan, Anh D. |
title |
Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons |
title_short |
Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons |
title_full |
Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons |
title_fullStr |
Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons |
title_full_unstemmed |
Deep Learning for the Inverse Design of Mid-Infrared Graphene Plasmons |
title_sort |
deep learning for the inverse design of mid-infrared graphene plasmons |
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MDPI |
publishDate |
2020 |
url |
https://dlib.phenikaa-uni.edu.vn/handle/PNK/403 https://doi.org/10.3390/cryst10020125 |
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1751856272760635392 |
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8.891053 |