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Main Authors: Abouelatta, Mahmoud A. A., Boroviks, Sergejs, Martin, Olivier J. F., Achouri, Karim
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.06508
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author Abouelatta, Mahmoud A. A.
Boroviks, Sergejs
Martin, Olivier J. F.
Achouri, Karim
author_facet Abouelatta, Mahmoud A. A.
Boroviks, Sergejs
Martin, Olivier J. F.
Achouri, Karim
contents Metasurface research has shown significant potential for controlling the polarization, amplitude, phase and propagation direction of light. Nevertheless, control over the angular response of incident light still remains a long-standing problem. In this work, we show the potential of diffractive systems for obtaining a step function in momentum space where the mirror symmetry of the angular transmittance is broken. By engineering the scattering response of an asymmetric particles in a metagrating, we could obtain such a step function in a passive, reciprocal, and lossless fashion. More specifically, the metagrating performs filtering in the momentum space with an abrupt switching from reflection to transmission for an incident electromagnetic wave with an arbitrary spatial profile. This metagrating may find diverse applications in the context of optical spatial analog computing. Moreover, it paves the way for exploring the capabilities of diffractive systems for gaining full control over the angular response of light using arbitrary momentum transfer functions.
format Preprint
id arxiv_https___arxiv_org_abs_2412_06508
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Step Function in Momentum Space by a Metagrating
Abouelatta, Mahmoud A. A.
Boroviks, Sergejs
Martin, Olivier J. F.
Achouri, Karim
Optics
Metasurface research has shown significant potential for controlling the polarization, amplitude, phase and propagation direction of light. Nevertheless, control over the angular response of incident light still remains a long-standing problem. In this work, we show the potential of diffractive systems for obtaining a step function in momentum space where the mirror symmetry of the angular transmittance is broken. By engineering the scattering response of an asymmetric particles in a metagrating, we could obtain such a step function in a passive, reciprocal, and lossless fashion. More specifically, the metagrating performs filtering in the momentum space with an abrupt switching from reflection to transmission for an incident electromagnetic wave with an arbitrary spatial profile. This metagrating may find diverse applications in the context of optical spatial analog computing. Moreover, it paves the way for exploring the capabilities of diffractive systems for gaining full control over the angular response of light using arbitrary momentum transfer functions.
title Step Function in Momentum Space by a Metagrating
topic Optics
url https://arxiv.org/abs/2412.06508