Wavelength Controllable Forward Prediction and Inverse Design of Nanophotonic Devices Using Deep Learning

机译：深层学习的波长可控前向预测和南光电装置的逆设计

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A deep learning-based wavelength controllable forward prediction and inverse design model of nanophotonic devices is proposed. Both the target time-domain and wavelength-domain information can be utilized simultaneously, which enables multiple functions, including power splitter and wavelength demultiplexer, to be implemented efficiently and flexibly.

机译：提出了一种深层学习的基于深度学习的波长可控前向预测和逆设计模型的纳光电装置。可以同时使用目标时域和波长域信息，这使得能够有效和灵活地实现多个功能，包括多个功能，包括电力分配器和波长解复用器。

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《European Conference on Optical Communications》|2020年|1-4|共4页
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Yuchen Song; Danshi Wang; Han Ye; Jun Qin; Min Zhang;
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Deep learning; Europe; Predictive models; Nanoscale devices; Optical fiber communication; Time-domain analysis; Photonics;

机译：深入学习;欧洲;预测模型;纳米级装置;光纤通信;时域分析;光子学;

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1. Generative Deep Learning Model for Inverse Design of Integrated Nanophotonic Devices [J] . Yingheng Tang, Keisuke Kojima, Toshiaki Koike-Akino, Laser & photonics reviews . 2020,第12期

机译：集成纳米光电装置逆设计的生成深层学习模型
2. A deep learning approach to the forward prediction and inverse design of plasmonic metasurface structural color [J] . Nathan Bryn Roberts, Mehdi Keshavarz Hedayati Applied Physics Letters . 2021,第6期

机译：抗议性元表面结构颜色前向预测和逆设计的深度学习方法
3. Thermal Emission Control via Bandgap Engineering in Aperiodically Designed Nanophotonic Devices [J] . Enrique Maci#xE1, Lorenzo Rosa Nanomaterials . 2015,第2期

机译：非周期性设计的纳米光子器件中通过带隙工程进行的热辐射控制
4. Inverse Design of Nanophotonic Devices using Deep Neural Networks [C] . Keisuke Kojima, Yingheng Tang, Toshiaki Koike-Akino, Asia Communications and Photonics Conference;International Conference on Information Photonics and Optical Communications . 2020

机译：使用深神经网络的纳米光电装置逆设计
5. Controlling the Phase of Titanium Dioxide for Nanophotonic Devices [D] . Griesse-Nascimento, Sarah Emily. 2019

机译：控制纳米光电装置二氧化钛的相
6. Thermal Emission Control via Bandgap Engineering in Aperiodically Designed Nanophotonic Devices [O] . Enrique Maciá 2015

机译：非周期性设计的纳米光子器件中通过带隙工程进行的热辐射控制
7. Wavelength Controllable Forward Prediction and Inverse Design of Nanophotonic Devices Using Deep Learning [O] . Yuchen Song, Danshi Wang, Han Ye, 2020

机译：深层学习的波长可控前向预测和南光电装置的逆设计
8. Novel Devices for Plasmonic and Nanophotonic Networks: Exploiting X-ray Wavelengths at Optical Frequencies. [R] . Atwater, H. A., Scherer, A., Painter, O. J., 2012

机译：用于等离子体和纳米光子网络的新型器件：利用光学频率开发X射线波长。

Wavelength Controllable Forward Prediction and Inverse Design of Nanophotonic Devices Using Deep Learning

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