Nanophotonics (Apr 2020)

Smart sensing metasurface with self-defined functions in dual polarizations

  • Ma Qian,
  • Hong Qiao Ru,
  • Gao Xin Xin,
  • Jing Hong Bo,
  • Liu Che,
  • Bai Guo Dong,
  • Cheng Qiang,
  • Cui Tie Jun

DOI
https://doi.org/10.1515/nanoph-2020-0052
Journal volume & issue
Vol. 9, no. 10
pp. 3271 – 3278

Abstract

Read online

For the intelligence of metamaterials, the -sensing mechanism and programmable reaction units are two important components for self-recognition and -determination. However, their realization still face great challenges. Here, we propose a smart sensing metasurface to achieve self-defined functions in the framework of digital coding metamaterials. A sensing unit that can simultaneously process the sensing channel and realize phase-programmable capability is designed by integrating radio frequency (RF) power detector and PIN diodes. Four sensing units distributed on the metasurface aperture can detect the microwave incidences in the x- and y-polarizations, while the other elements can modulate the reflected phase patterns under the control of a field programmable gate array (FPGA). To validate the performance, three schemes containing six coding patterns are presented and simulated, after which two of them are measured, showing good agreements with designs. We envision that this work may motivate studies on smart metamaterials with high-level recognition and manipulation.

Keywords