Conner Ballew scite author profile

Three-dimensional elements, with refractive index distribution structured at sub-wavelength scale, provide an expansive optical design space that can be harnessed for demonstrating multi-functional free-space optical devices. Here we present 3D dielectric elements, designed to be placed on top of the pixels of image sensors, that sort and focus light based on its color and polarization with efficiency significantly surpassing 2D absorptive and diffractive filters. The devices are designed via iterative gradient-based optimization to account for multiple target functions while ensuring compatibility with existing nanofabrication processes, and experimentally validated using a scaled device that operates at microwave frequencies. This approach combines arbitrary functions into a single compact element even where there is no known equivalent in bulk optics, enabling novel integrated photonic applications.

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3D-patterned inverse-designed mid-infrared metaoptics

Roberts

Ballew

Zheng

et al. 2023

Nat Commun

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Modern imaging systems can be enhanced in efficiency, compactness, and application through the introduction of multilayer nanopatterned structures for manipulation of light based on its fundamental properties. High transmission multispectral imaging is elusive due to the commonplace use of filter arrays which discard most of the incident light. Further, given the challenges of miniaturizing optical systems, most cameras do not leverage the wealth of information in polarization and spatial degrees of freedom. Optical metamaterials can respond to these electromagnetic properties but have been explored primarily in single-layer geometries, limiting their performance and multifunctional capacity. Here we use advanced two-photon lithography to realize multilayer scattering structures that achieve highly nontrivial optical transformations intended to process light just before it reaches a focal plane array. Computationally optimized multispectral and polarimetric sorting devices are fabricated with submicron feature sizes and experimentally validated in the mid-infrared. A final structure shown in simulation redirects light based on its angular momentum. These devices demonstrate that with precise 3-dimensional nanopatterning, one can directly modify the scattering properties of a sensor array to create advanced imaging systems.

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Inverse-Designed Spectrum Splitters for Color Imaging

Camayd-Muñoz¹,

Roberts²,

Debbas³

et al. 2019

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Inverse Designed Shape-Reconfigurable Multifunctional Photonics

Camayd-Muñoz

Roberts

Ballew

et al. 2020

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Conner Ballew

Multifunctional volumetric meta-optics for color and polarization image sensors

3D-patterned inverse-designed mid-infrared metaoptics

Inverse-Designed Spectrum Splitters for Color Imaging

Inverse Designed Shape-Reconfigurable Multifunctional Photonics

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