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Broadband radar cross section reduction via a 1 bit coding metasurface at terahertz frequencies

MA HONG YU1, CHEN ZHI HONG1,* , LIU SHENG YU2,* , REN GUANG JUN1,* , ZHANG HAI WEI1, YAO JIAN QUAN3

Affiliation

  1. School of Electrical and Electronic Engineering Tianjin Key Lab o f Film Electronic & Communication Devices Tianjin University of Technology Tianjin 300384, PR China
  2. School of computer Science, Faculty of Engineering, The University of Sydne y Sydney 2006, NSW, Australia
  3. College of Precision Instrument and Opto electronics Engineering, Institut e of Laser and Opto electronics, Key Laboratory of Optoelectric Information Science and Technology, Ministry of Education, Ti

Abstract

Broadband terahertz radar cross section (RCS) reduction is achieved via a 1 bit coding metasurface. The proposed electromagnetic metasurface consists of two basic digital elements. The 180° phase difference between the neighboring elements can realize the reduction of RCS by a non directional low scattering of the broadband THz frequency. The calculated results show that the RCS reduction can be up to 15 26 dB in most of the wide frequency range of 0.7 1.6 THz. Compared to the existing research results, the metasurface for RCS reduction is non directional and has the characteristics of broad band and low scattering.

Keywords

Coding metasurface, Diffuse reflection, RCS, Terahertz.

Citation

MA HONG YU, CHEN ZHI HONG, LIU SHENG YU, REN GUANG JUN, ZHANG HAI WEI, YAO JIAN QUAN, Broadband radar cross section reduction via a 1 bit coding metasurface at terahertz frequencies, Optoelectronics and Advanced Materials - Rapid Communications, 14, 5-6, May-June 2020, pp.244-249 (2020).

Submitted at: Sept. 30, 2019

Accepted at: June 16, 2020