A frequency selective surface loaded two-layer composite for tunable microwave absorption

Abstract: To obtain tunable microwave absorption, a strategy of constructing a frequency selective surface (FSS) on a two-layer composite is proposed. The designed FSS loaded two-layer composite is composed of a FSS constructed by evenly spaced circular copper sheet, an impedance matching layer (SiO2 fiber reinforced epoxy resin (EP) composite, SiO2f/EP) and a lossy layer. Both simulation and experiments indicate that the SiO2f/EP layer serves as a good impedance matching layer with increased microwave absorption effic… Show more

“…Obviously, the designs of microstructure and composition are of great help in improving the absorbing performance. Mesoscopic and macroscopic structural design can be achieved with 2D frequency selective surfaces, a 3D honeycomb sandwich structure and the integration of various absorbing structures [13][14][15][16][17][18]. Zhou et al [5] proposed a flexible broadband metamaterial absorber based on sandwiched cylindrical water resonators prepared via 3D printing.…”

A Split-Ring Resonator-Loaded Honeycomb Sandwich Structure for Broadband Microwave Absorption

“…Obviously, the designs of microstructure and composition are of great help in improving the absorbing performance. Mesoscopic and macroscopic structural design can be achieved with 2D frequency selective surfaces, a 3D honeycomb sandwich structure and the integration of various absorbing structures [13][14][15][16][17][18]. Zhou et al [5] proposed a flexible broadband metamaterial absorber based on sandwiched cylindrical water resonators prepared via 3D printing.…”

A Split-Ring Resonator-Loaded Honeycomb Sandwich Structure for Broadband Microwave Absorption