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Wenyuan ZHANG, Haojun XU, Binbin PEI, Xiaolong WEI, Pei FENG, Lin ZHANG. An electromagnetic wave attenuation superposition structure for thin-layer plasma[J]. Plasma Science and Technology, 2022, 24(2): 025504. DOI: 10.1088/2058-6272/ac4a28
Citation: Wenyuan ZHANG, Haojun XU, Binbin PEI, Xiaolong WEI, Pei FENG, Lin ZHANG. An electromagnetic wave attenuation superposition structure for thin-layer plasma[J]. Plasma Science and Technology, 2022, 24(2): 025504. DOI: 10.1088/2058-6272/ac4a28

An electromagnetic wave attenuation superposition structure for thin-layer plasma

  • This work proposes a new plasma super-phase gradient metasurfaces (PS-PGMs) structure, owing to the limitations of the thin-layer plasma for electromagnetic wave attenuation. Based on the cross-shaped surface unit configuration, we have designed the X-band absorbing structure through the dispersion control method. By setting up the Drude dispersion model in the computer simulation technology, the designed phase gradient metasurfaces structure is superposed over the plasma, and the PS-PGMs structure is constructed. The electromagnetic scattering characteristics of the new structure have been simulated, and the reflectance measurement has been carried out to verify the absorbing effect. The results demonstrate that the attenuation effect of the new structure is superior to that of the pure plasma structure, which invokes an improved attenuation effect from the thin layer plasma, thus enhancing the feasibility of applying the plasma stealth technology to the local stealth of the strong scattering part of a combat aircraft.
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