Nanophotonic Particle Simulation and Inverse Design Using Artificial Neural Networks

Brendan Delacy; Fidel Cano-Renteria; John D. Joannopoulos; John Peurifoy; Li Jing; Marin Soljacic; Max Tegmark; Yichen Shen; Yi Yang

arxiv: 1712.03222 · v1 · pith:QGTK4GYEnew · submitted 2017-10-18 · ⚛️ physics.comp-ph · physics.app-ph· physics.optics

Nanophotonic Particle Simulation and Inverse Design Using Artificial Neural Networks

John Peurifoy , Yichen Shen , Li Jing , Yi Yang , Fidel Cano-Renteria , Brendan Delacy , Max Tegmark , John D. Joannopoulos

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Marin Soljacic

This is my paper

classification ⚛️ physics.comp-ph physics.app-phphysics.optics

keywords neuralnetworktrainedapproximateartificialdesigninversenanophotonic

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We propose a method to use artificial neural networks to approximate light scattering by multilayer nanoparticles. We find the network needs to be trained on only a small sampling of the data in order to approximate the simulation to high precision. Once the neural network is trained, it can simulate such optical processes orders of magnitude faster than conventional simulations. Furthermore, the trained neural network can be used solve nanophotonic inverse design problems by using back- propogation - where the gradient is analytical, not numerical.

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Nanophotonic Particle Simulation and Inverse Design Using Artificial Neural Networks

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