C.; Huang, B.; Malof, J

Nadell, C · 2019 · DOI 10.1364/oe.27.027523

2 Pith papers cite this work. Polarity classification is still indexing.

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Octave-Spanning Terahertz Quarter-Wave Plates Based on Over-Coupled Fabry-P\'erot Resonances in Reflective Metal-Dielectric-Metal Metasurfaces

physics.optics · 2026-04-03 · conditional · novelty 6.0

Over-coupled reflective metasurfaces achieve octave-spanning THz quarter-wave plates covering 0.25-3 THz with axial ratio below 3 dB and over 80% conversion efficiency.

General Inverse Design of Thin-Film Metamaterials With Convolutional Neural Networks

physics.comp-ph · 2021-03-29 · unverdicted · novelty 5.0

Convolutional neural networks are shown to perform inverse design of thin-film metamaterial stacks by learning the mapping from structure to ellipsometric and reflectance/transmittance spectra, with efficiency gains over traditional optimization as layer count increases.

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Octave-Spanning Terahertz Quarter-Wave Plates Based on Over-Coupled Fabry-P\'erot Resonances in Reflective Metal-Dielectric-Metal Metasurfaces physics.optics · 2026-04-03 · conditional · none · ref 53
Over-coupled reflective metasurfaces achieve octave-spanning THz quarter-wave plates covering 0.25-3 THz with axial ratio below 3 dB and over 80% conversion efficiency.
General Inverse Design of Thin-Film Metamaterials With Convolutional Neural Networks physics.comp-ph · 2021-03-29 · unverdicted · none · ref 25
Convolutional neural networks are shown to perform inverse design of thin-film metamaterial stacks by learning the mapping from structure to ellipsometric and reflectance/transmittance spectra, with efficiency gains over traditional optimization as layer count increases.

C.; Huang, B.; Malof, J

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