Polarization coincidence images from metasurfaces with HOM-type interference

Metasurfaces provide a promising route for structuring light and generating holograms with designed amplitude, phase, and polarization profiles, leading to a versatile platform for integrating and constructing optical components beyond the conventional ones. At the same time, incorporating coinciden...

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Bibliographic Details
Published in:iScience 2022-04, Vol.25 (4), p.104155, Article 104155
Main Authors: Yung, Tsz Kit, Xi, Jiawei, Liang, Hong, Lau, Kai Ming, Wong, Wai Chun, Tanuwijaya, Randy Stefan, Zhong, Fan, Liu, Hui, Tam, Wing Yim, Li, Jensen
Format: Article
Language:English
Subjects:
Metamaterials
Photonics
Physics
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Summary:Metasurfaces provide a promising route for structuring light and generating holograms with designed amplitude, phase, and polarization profiles, leading to a versatile platform for integrating and constructing optical components beyond the conventional ones. At the same time, incorporating coincidence in imaging allows a high signal-to-noise ratio for imaging in very low light levels. As beneficial from the recent development in both metasurfaces and single-photon avalanche diode (SPAD) cameras, we combine the polarization-sensitive capability of metasurfaces with Hong-Ou-Mandel (HOM)-type interference in generating images with tailor-made two-photon interference and polarization coincidence signatures. By using orthogonal linear-polarized photons as incidence, correlated, anticorrelated, and uncorrelated polarization coincidence features can be observed within the same image from the pairwise second-order coherence statistics across different pixels of the image. Our work adds polarization to the demonstrated amplitude and phase sensitivity in the domain of “HOM microscopy” and can be useful for biological and security applications. [Display omitted] •Images with tailor-made two-photon interference and coincidence signatures are generated•Control of spatial coincidence signal can be either on transmitted or diffracted fields•The coincidence’s response can be correlated, anticorrelated, or uncorrelated•The generation of coincidence images is potentially useful for quantum imaging schemes Physics; Photonics; Metamaterials; Hong-Ou-Mandel effect
ISSN:2589-0042
2589-0042
DOI:10.1016/j.isci.2022.104155