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Inverse design of photonic nanostructures using dimensionality reduction: reducing the computational complexity

Abstract

In this Letter, we present a deep-learning-based method using neural networks (NNs) for inverse design of photonic nanostructures. We show that by using dimensionality reduction in both the design and the response spaces, the computational complexity of the inverse design algorithm is considerably reduced. As a proof of concept, we apply this method to design multi-layer thin-film structures composed of consecutive layers of two different dielectrics and compare the results using our techniques to those using conventional NNs.

© 2021 Optical Society of America

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Data Availability

Data underlying the results presented in this paper are available in Ref. [16]. Some parts of the results and codes that are not publicly available may be obtained from the author upon reasonable request.

16. M. Zandehshahvar, “Dimensionality reduction for inverse design,” GitHub (2005) [accessed 17 May 2021], https://github.com/mzandshahvar/Dimensionality-Reduction-For-Inverse-Design.

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