Ye Ming Qing scite author profile

Digital coding metasurface, which provides a new approach to link the physical world and information science, has been quickly developed in recent years. However, all previously reported metasurfaces cannot achieve independent controls of different polarizations in both transmission and reflection spaces at the same time. In this work, a reconfigurable anisotropic digital coding metasurface loaded with electronically controlled PIN diodes is proposed that can independently manipulate not only the near/far‐field pattern but also the transmission and reflection modes of the electromagnetic waves under different polarizations. As a validation example, a multifunctional holographic imaging metasurface is designed, fabricated, and measured. Both simulated and measured results show that orthogonally polarized waves (vertical and horizontal polarizations) can be manipulated to achieve different images, and the transmission and reflection modes of the differently‐polarized images can be independently controlled in real time by changing the state of the loaded PIN diodes.

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Near-infrared absorption-induced switching effect via guided mode resonances in a graphene-based metamaterial

Qing

Feng

Ren

et al. 2019

Opt. Express

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Tunable dual-band perfect metamaterial absorber based on a graphene-SiC hybrid system by multiple resonance modes

Qing¹,

Feng²,

Yu³

et al. 2018

J. Phys. D: Appl. Phys.

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We propose dynamically tunable dual-band perfect absorption of light in a composite structure, which consists of a graphene ribbon array coated on a dielectric layer, a silicon carbide (SiC) film and a distributed Bragg reflector (DBR). Two absorption peaks reaching 98.8% at 10.87 μm and 97.5% at 12.4 μm are observed in the hybrid structure. The dual-band absorption enhancement can be explained by two different mechanisms: one is attributed to the graphene localized surface plasmons (GLSP), and the other is originated from the excitation of Tamm plasmon polaritons (TPP) at the interface between SiC and DBR. Moreover, the high absorption peaks can be modulated by altering the geometrical parameters or dynamically controlling the chemical potential of graphene ribbons. More significantly, we numerically and theoretically investigate the hybridization between GLSP mode and TPP mode, which is characterized by the anti-crossing behaviour of the two modes. The mode splitting phenomenon is a typical Rabi splitting. In addition, we also study the coupling characteristics based on graphene surface plasmons (GSP) mode and TPP mode. This work offers a new paradigm for enhancing light-matter interaction through multiple resonance modes, and the proposed device could provide potential applications in MIR plasmonic devices, such as absorbers, detectors, and modulators, etc.

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Flexible control of light trapping and localization in a hybrid Tamm plasmonic system

2019

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Ye Ming Qing

Tailoring anisotropic perfect absorption in monolayer black phosphorus by critical coupling at terahertz frequencies

Transmission‐Reflection Controls and Polarization Controls of Electromagnetic Holograms by a Reconfigurable Anisotropic Digital Coding Metasurface

Near-infrared absorption-induced switching effect via guided mode resonances in a graphene-based metamaterial

Tunable dual-band perfect metamaterial absorber based on a graphene-SiC hybrid system by multiple resonance modes

Flexible control of light trapping and localization in a hybrid Tamm plasmonic system

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