Design of optical meta-structures with applications to beam engineering using deep learning

Scientific Reports
Robin SinghBrian W Anthony

Abstract

Nanophotonics is a rapidly emerging field in which complex on-chip components are required to manipulate light waves. The design space of on-chip nanophotonic components, such as an optical meta surface which uses sub-wavelength meta-atoms, is often a high dimensional one. As such conventional optimization methods fail to capture the global optimum within the feasible search space. In this manuscript, we explore a Machine Learning (ML)-based method for the inverse design of the meta-optical structure. We present a data-driven approach for modeling a grating meta-structure which performs photonic beam engineering. On-chip planar photonic waveguide-based beam engineering offers the potential to efficiently manipulate photons to create excitation beams (Gaussian, focused and collimated) for lab-on-chip applications of Infrared, Raman and fluorescence spectroscopic analysis. Inverse modeling predicts meta surface design parameters based on a desired electromagnetic field outcome. Starting with the desired diffraction beam profile, we apply an inverse model to evaluate the optimal design parameters of the meta surface. Parameters such as the repetition period (in 2D axis), height and size of scatterers are calculated using a feedfor...Continue Reading

References

Mar 1, 1993·Applied Optics·D H Raguin, G M Morris
Jan 24, 2014·Nature Materials·Nanfang Yu, Federico Capasso
Nov 3, 2017·Optics Express·Jean-Claude TinguelyBalpreet Singh Ahluwalia
Jan 11, 2018·Nature Communications·Dakota E McCoyRichard O Prum
Jan 18, 2019·Optics Express·Raphaël PestourieSteven G Johnson
Jan 9, 2020·Scientific Reports·Ana RakitaAdelheid Elbe-Bürger
Sep 30, 2020·Optics Express·Robin SinghBrian W Anthony

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Methods Mentioned

BETA
chip

Software Mentioned

Lumerical FDTD
Lumerical
Pytorch
Python

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