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Chip-Integrated Metasurface Full-Stokes Polarimetric Imaging Sensor

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arxiv 2303.10858 v1 pith:ODHL7RUD submitted 2023-03-20 physics.optics physics.app-ph

Chip-Integrated Metasurface Full-Stokes Polarimetric Imaging Sensor

classification physics.optics physics.app-ph
keywords imagingpolarimetricfull-stokessensorapplicationschip-integratedcmoscompact
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Polarimetric imaging has a wide range of applications for uncovering features invisible to human eyes and conventional imaging sensors. Compact, fast, cost-effective and accurate full-Stokes polarimetric imaging sensors are highly desirable in many applications, which, however, remain elusive due to fundamental material limitations. Here we present a Metasurface-based Full-Stokes Polarimetric Imaging sensor (MetaPolarIm) realized by integrating an ultrathin (~600 nm) metasurface polarization filter array (MPFA) onto a visible imaging sensor with CMOS compatible fabrication processes. The MPFA is featured with broadband dielectric-metal hybrid chiral metasurfaces and double-layer nanograting polarizers. This chip-integrated polarimetric imaging sensor enables single-shot full-Stokes imaging (speed limited by the CMOS imager) with the most compact form factor, record high measurement accuracy, dual-color operation (green and red) and a full angle of view up to 40 degrees. MetaPolarIm holds great promise to enable transformative applications in autonomous vision, industry inspection, space exploration, medical imaging and diagnosis.

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