Real-time reconfigurable metasurfaces enabling agile terahertz wave front manipulation

Huixian Zhou; Cheng Zhang

doi:10.1038/s41377-023-01331-y

Go to Nature Website

Your Location：

Home >

Browse articles >

Real-time reconfigurable metasurfaces enabling agile terahertz wave front manipulation

News & Views

- Real-time reconfigurable metasurfaces enabling agile terahertz wave front manipulation
- Light: Science & Applications Vol. 12, Issue 12, Pages: 2551-2553(2023)
- Affiliations：
  
  School of Optical and Electronic Information & Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology, Wuhan 430074, China
- Author bio：
  
  Cheng Zhang (cheng.zhang@hust.edu.cn)
- Funds：
- DOI：10.1038/s41377-023-01331-y
  CLC：
- Published：31 December 2023，
  
  Published Online：27 November 2023，
- Accepted：
Scan QR Code
Zhou, H. X. & Zhang, C. Real-time reconfigurable metasurfaces enabling agile terahertz wave front manipulation. Light: Science & Applications, 12, 2551-2553 (2023).
DOI：

Zhou, H. X. & Zhang, C. Real-time reconfigurable metasurfaces enabling agile terahertz wave front manipulation. Light: Science & Applications, 12, 2551-2553 (2023). DOI： 10.1038/s41377-023-01331-y.

摘要

Abstract

Real-time controlled programmable metasurfaces

having an array-of-subarrays architecture under the control of one-bit digital coding sequence

are demonstrated for rapid and precise multifunctional Terahertz wave front engineering.

关键词

Keywords

references

Neshev, D.&Aharonovich, I. Optical metasurfaces: new generation building blocks for multi-functional optics.Light Sci. Appl.7, 58 (2018)..

Zang, X. F. et al. Metasurfaces for manipulating terahertz waves.Light Adv. Manuf.2, 10 (2021)..

Malek, S. C. et al. Multifunctional resonant wavefront-shaping meta-optics based on multilayer and multi-perturbation nonlocal metasurfaces.Light Sci. Appl.11, 246 (2022)..

Zhang, C. et al. Low-loss metasurface optics down to the deep ultraviolet region.Light Sci. Appl.9, 55 (2020)..

Zeng, B. B. et al. Hybrid graphene metasurfaces for high-speed mid-infrared light modulation and single-pixel imaging.Light Sci. Appl.7, 51 (2018)..

Liu, K. et al. Active tuning of electromagnetically induced transparency from chalcogenide-only metasurface.Light Adv. Manuf.2, 19 (2021)..

Zhao, X. G. et al. Electromechanically tunable metasurface transmission waveplate at terahertz frequencies.Optica5, 303–310 (2018)..

Chen, H. T. et al. Tuning the resonance in high-temperature superconducting terahertz metamaterials.Phys. Rev. Lett.105, 247402 (2010)..

Duan, X. Y., Kamin, S.&Liu, N. Dynamic plasmonic colour display.Nat. Commun.8, 14606 (2017)..

Zhuang, X. L. et al. Active terahertz beam steering based on mechanical deformation of liquid crystal elastomer metasurface.Light Sci. Appl.12, 14 (2023)..

Chen, Z. F. et al. Graphene controlled Brewster angle device for ultra broadband terahertz modulation.Nat. Commun.9, 4909 (2018)..

Zhang, Y. X. et al. Gbps terahertz external modulator based on a composite metamaterial with a double-channel heterostructure.Nano Lett.15, 3501–3506 (2015)..

Seren, H. R. et al. Nonlinear terahertz devices utilizing semiconducting plasmonic metamaterials.Light Sci. Appl.5, e16078 (2016)..

Chen, B. W. et al. Electrically addressable integrated intelligent terahertz metasurface.Sci. Adv.8, eadd1296 (2022)..

Bao, L. et al. Programmable reflection-transmission shared-aperture metasurface for real-time control of electromagnetic waves in full space.Sci. Adv.8, 2100149 (2021)..

Wang, H. L. et al. Broadband and programmable amplitude-phase-joint-coding information metasurface.ACS Appl. Mater. Interfaces14, 29431–29440 (2022)..

Venkatesh, S. et al. A high-speed programmable and scalable terahertz holographic metasurface based on tiled CMOS chips.Nat. Electron.3, 785–793(2020)..

Monroe, N. M. et al.Electronic THz pencil beam forming and 2D steering for high angular-resolution operation: a 98×98-unit 265GHz CMOS reflectarray with in-unit digital beam shaping and squint correction. Proceedings of 2022 IEEE International Solid-State Circuits Conference (ISSCC). San Francisco: IEEE, 2022, 1–3..

Lan, F. et al. Real-time programmable metasurface for terahertz multifunctional wave front engineering.Light Sci. Appl.12, 191 (2023)..

Abdelraouf, O. A. M. et al. Recent advances in tunable metasurfaces: materials, design, and applications.ACS Nano16, 13339–13369 (2022)..

He, Q., Sun, S. L.&Zhou, L. Tunable/Reconfigurable metasurfaces: physics and applications.Research2019, 1849272 (2019)..

Liu, Z. Y. et al. Metasurface-enabled augmented reality display: a review.Adv. Photonics5, 034001 (2023)..

Wang, D. Y. et al. Structural color generation: from layered thin films to optical metasurfaces.Nanophotonics12, 1019–1081 (2023)..

Kim, I. et al. Nanophotonics for light detection and ranging technology.Nat. Nanotechnol.16, 508–524 (2021)..

Neshev, D. N.&Miroshnichenko, A. E. Enabling smart vision with metasurfaces.Nat. Photonics17, 26–35 (2023)..

Park, J. H.&Lee, B. Holographic techniques for augmented reality and virtual reality near-eye displays.Light. Adv. Manuf.3, 9 (2022)..

Views

Downloads

CSCD

Alert me when the article has been cited

Submit

Tools

Publicity Resources

No data

Related Author

No data

Related Institution

No data

⁰