Litcius/Paper detail

Achromatic metasurfaces by dispersion customization for ultra-broadband acoustic beam engineering

Hao‐Wen Dong, Chen Shen, Shengdong Zhao, Weibao Qiu, Hairong Zheng, Chuanzeng Zhang, Steven A. Cummer, Yue‐Sheng Wang, Daining Fang, Cheng Li

2022National Science Review116 citationsDOIOpen Access PDF

Abstract

Metasurfaces, the ultra-thin media with extraordinary wavefront modulation ability, have shown great promise for many potential applications. However, most of the existing metasurfaces are limited by narrow-band and strong dispersive modulation, which complicates their real-world applications and, therefore require strict customized dispersion. To address this issue, we report a general methodology for generating ultra-broadband achromatic metasurfaces with prescribed ultra-broadband achromatic properties in a bottom-up inverse-design paradigm. We demonstrate three ultra-broadband functionalities, including acoustic beam deflection, focusing and levitation, with relative bandwidths of 93.3%, 120% and 118.9%, respectively. In addition, we reveal a relationship between broadband achromatic functionality and element dispersion. All metasurface elements have anisotropic and asymmetric geometries with multiple scatterers and local cavities that synthetically support internal resonances, bi-anisotropy and multiple scattering for ultra-broadband customized dispersion. Our study opens new horizons for ultra-broadband highly efficient achromatic functional devices, with promising extension to optical and elastic metamaterials.

Topics & Concepts

Achromatic lensBroadbandMetamaterialOpticsWavefrontDispersion (optics)AnisotropyScatteringReconfigurabilityPhysicsMaterials scienceAcousticsOptoelectronicsComputer scienceTelecommunicationsAcoustic Wave Phenomena ResearchMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface Technologies