Qinling Deng scite author profile

Active wave manipulation by ultracompact meta-devices is highly embraced in recent years, but a major concern still exists due to the lack of functional reconfigurability. Moreover, the phase or amplitude discontinuities introduced by collective response of discrete meta-atoms make current meta-devices far from practical applications. Here, we demonstrate actively tunable wavefront control with high-efficiency by combining catenary-based meta-atoms for intrinsic continuous phase regulation with the chalcogenide phase change material (PCM) of Ge2Sb2Te5. First, switchable beam deflection is demonstrated in a wide mid-IR range between 8 μm and 9.5 μm with ‘on’ and ‘off’ states for beam steering between anomalous and normal specular reflections. Second, a switchable meta-axicon for zero order Bessel beam generation is demonstrated with full width at half maximum (FWHM) as small as ∼0.41 λ (λ = 12 µm). As a result, our scheme for active and continuous phase control potentially paves an avenue to construct active photonic devices especially for applications where large contrast ratio is highly desirable, such as optoelectronic integration, wavefront engineering and so on.

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Phase Change Metasurfaces by Continuous or Quasi-Continuous Atoms for Active Optoelectronic Integration

Fan

Deng

et al. 2021

Materials

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In recent decades, metasurfaces have emerged as an exotic and appealing group of nanophotonic devices for versatile wave regulation with deep subwavelength thickness facilitating compact integration. However, the ability to dynamically control the wave–matter interaction with external stimulus is highly desirable especially in such scenarios as integrated photonics and optoelectronics, since their performance in amplitude and phase control settle down once manufactured. Currently, available routes to construct active photonic devices include micro-electromechanical system (MEMS), semiconductors, liquid crystal, and phase change materials (PCMs)-integrated hybrid devices, etc. For the sake of compact integration and good compatibility with the mainstream complementary metal oxide semiconductor (CMOS) process for nanofabrication and device integration, the PCMs-based scheme stands out as a viable and promising candidate. Therefore, this review focuses on recent progresses on phase change metasurfaces with dynamic wave control (amplitude and phase or wavefront), and especially outlines those with continuous or quasi-continuous atoms in favor of optoelectronic integration.

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High-efficiency mid-infrared transmissive Huygens dielectric metasurface

Song

Deng

et al. 2021

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Public R&D and economic growth: Mend of Morales' model

Deng

2011

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Electrically reconfigurable terahertz digital metasurface based on vanadium dioxide phase transition

Deng

Song

Tang

et al. 2021

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Qinling Deng

Catenary-based phase change metasurfaces for mid-infrared switchable wavefront control

Phase Change Metasurfaces by Continuous or Quasi-Continuous Atoms for Active Optoelectronic Integration

High-efficiency mid-infrared transmissive Huygens dielectric metasurface

Public R&D and economic growth: Mend of Morales' model

Electrically reconfigurable terahertz digital metasurface based on vanadium dioxide phase transition

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Qinling Deng

Catenary-based phase change metasurfaces for mid-infrared switchable wavefront control

Phase Change Metasurfaces by Continuous or Quasi-Continuous Atoms for Active Optoelectronic Integration

High-efficiency mid-infrared transmissive Huygens dielectric metasurface

Public R&amp;D and economic growth: Mend of Morales' model

Electrically reconfigurable terahertz digital metasurface based on vanadium dioxide phase transition

Contact Info

Product

Resources

About

Public R&D and economic growth: Mend of Morales' model