Jin Qin scite author profile

Metasurfaces are 2D artificial materials consisting of arrays of metamolecules, which are exquisitely designed to manipulate light in terms of amplitude, phase, and polarization state with spatial resolutions at the subwavelength scale. Traditional micro/nano-optical sensors (MNOSs) pursue high sensitivity through strongly localized optical fields based on diffractive and refractive optics, microcavities, and interferometers. Although detections of ultra-low concentrations of analytes have already been demonstrated, the label-free sensing and recognition of complex and unknown samples remain challenging, requiring multiple readouts from sensors, e.g., refractive index, absorption/emission spectrum, chirality, etc. Additionally, the reliability of detecting large, inhomogeneous biosamples may be compromised by the limited near-field sensing area from the localization of light. Here, we review recent advances in metasurface-based MNOSs and compare them with counterparts using micro-optics from aspects of physics, working principles, and applications. By virtue of underlying the physics and design flexibilities of metasurfaces, MNOSs have now been endowed with superb performances and advanced functionalities, leading toward highly integrated smart sensing platforms.

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Ultra-broadband wide-angle linear polarization converter based on H-shaped metasurface

Qin

et al. 2018

Opt. Express

143

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We report the design, fabrication, and measurement of an ultra-broadband wide-angle reflective cross-polarization convertor using the compact H-shaped metasurface. The significant bandwidth expansion is attributed to the four electromagnetic resonances generated in an H-shaped unit. The simulation results show that the polarization conversion ratio (PCR) of the proposed metasurface is above 90% in the frequency range from 7 to 19.5 GHz and the relative bandwidth reaches 94%. The proposed metasurface is valid for a wide range of incident angles, and the mean polarization conversion ratio remains 80% even though the incident angle reaches 41.5°. The experimental results are in good agreement with the simulation results. Compared with the previous designs, the proposed linear polarization converter has a simple geometry but an excellent performance and hence has potential applications in microwave communications, remote sensors, and imaging systems.

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Fluxonium: An Alternative Qubit Platform for High-Fidelity Operations

Bao¹,

Deng²,

Ding³

et al. 2022

Phys. Rev. Lett.

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Experimental demonstration of irregular thermal carpet cloaks with natural bulk material

Qin

Luo

Yang

et al. 2019

International Journal of Heat and Mass Transfer

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Jin Qin

Metasurface Micro/Nano-Optical Sensors: Principles and Applications

Ultra-broadband wide-angle linear polarization converter based on H-shaped metasurface

Fluxonium: An Alternative Qubit Platform for High-Fidelity Operations

Experimental demonstration of irregular thermal carpet cloaks with natural bulk material

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