Author:
Zhou Xiaoshu,Xiao Qide,Wang Han
Abstract
Abstract
In recent years, deep learning has risen to the forefront of many fields, overcoming challenges previously considered difficult to solve by traditional methods. In the field of metamaterials, there are significant challenges in the design and optimization of metamaterials, including the need for a large number of labeled data sets and one-to-many mapping when solving inverse problems. Here, we will use deep learning methods to build a metamaterial database to achieve rapid design and analysis methods of metamaterials. These technologies have significantly improved the feasibility of more complex metamaterial designs and provided new metamaterial design and analysis ideas.
Subject
General Physics and Astronomy
Reference45 articles.
1. Deep-learning-enabled on-demand design of chiral theory metamaterials;Wei;ACS Nano,2018
2. Plasmonic nanostructure design and characterization via Deep Learning;Itzik;Light: Science & Application,2018
3. Metamaterials How Close Are We to a Klingon Cloaking Device or Harry Potter Invisibility Cloak? (No SAND2019-14245B);Valley,2019
4. Machine-learning designs of anisotropic digital coding metasurfaces;Zhang;Adv. Theory Simul.,2019
5. Deep learning;Yoshua Bengio;nature,2015
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