Properties of Propagation of Electromagnetic Wave in a Multilayer Radar-Absorbing Structure With Plasma- and Radar-Absorbing Material

“…The reason for this is that the input impedance of structure has a smoother response when the plasma substrates are utilized. The previous experimental demonstrations [43,44] allow the plasma parameters employed in the present study to be freely chosen in the validity ranges of 1 × 10 10 < ω p < 6 × 10 10 and 1 × 10 6 < ν p < 1 × 10 11 . By properly adjusting the parameters, the metasurfaces are designed to exhibit a broadband impedance mismatch in the upper frequency range, and the plasma medium parameters are adjusted so that a wideband attenuation in the lower frequency region is guaranteed.…”

“…Owing to the reconfigurable operation, i.e., ON or OFF, plasma has been found as an especial placement between other natural materials, especially in wave manipulation engineering [34,35]. More recently, according to the interesting features enabled by the plasma mediums, different combinations with the other artificial structures have been reported for them, leading to substantial improvements in the overall performances [36][37][38][39]. For instance, Yuan et al designed a multilayer radar-absorbing structure with plasma-and radar-absorbing material (RAM) to investigate the stealth mechanisms of a multilayer absorber [36].…”

“…More recently, according to the interesting features enabled by the plasma mediums, different combinations with the other artificial structures have been reported for them, leading to substantial improvements in the overall performances [36][37][38][39]. For instance, Yuan et al designed a multilayer radar-absorbing structure with plasma-and radar-absorbing material (RAM) to investigate the stealth mechanisms of a multilayer absorber [36]. By a combination of plasma and resistive frequency-selective surface (FSS), a wideband absorber was reported in [37], spanning both the X-and Ku-bands.…”

Ultra-Thin Tunable Plasma-Metasurface Composites for Extremely Broadband Electromagnetic Shielding Applications

“…The reason for this is that the input impedance of structure has a smoother response when the plasma substrates are utilized. The previous experimental demonstrations [43,44] allow the plasma parameters employed in the present study to be freely chosen in the validity ranges of 1 × 10 10 < ω p < 6 × 10 10 and 1 × 10 6 < ν p < 1 × 10 11 . By properly adjusting the parameters, the metasurfaces are designed to exhibit a broadband impedance mismatch in the upper frequency range, and the plasma medium parameters are adjusted so that a wideband attenuation in the lower frequency region is guaranteed.…”

“…Owing to the reconfigurable operation, i.e., ON or OFF, plasma has been found as an especial placement between other natural materials, especially in wave manipulation engineering [34,35]. More recently, according to the interesting features enabled by the plasma mediums, different combinations with the other artificial structures have been reported for them, leading to substantial improvements in the overall performances [36][37][38][39]. For instance, Yuan et al designed a multilayer radar-absorbing structure with plasma-and radar-absorbing material (RAM) to investigate the stealth mechanisms of a multilayer absorber [36].…”

“…More recently, according to the interesting features enabled by the plasma mediums, different combinations with the other artificial structures have been reported for them, leading to substantial improvements in the overall performances [36][37][38][39]. For instance, Yuan et al designed a multilayer radar-absorbing structure with plasma-and radar-absorbing material (RAM) to investigate the stealth mechanisms of a multilayer absorber [36]. By a combination of plasma and resistive frequency-selective surface (FSS), a wideband absorber was reported in [37], spanning both the X-and Ku-bands.…”

Ultra-Thin Tunable Plasma-Metasurface Composites for Extremely Broadband Electromagnetic Shielding Applications

“…These structures are used in anti-reflection coatings, radar absorbing structures, and filters [1][2][3]. Alternating layers of double positive (DPS) and double negative (DNG) materials are used to show transmission tunneling [4].…”

“…Liu and Behdad demonstrated that the problem of EM wave tunneling through cascaded epsilon-negative metamaterial and double positive material barrier structure is analogous to the classical problem of coupled-resonator microwave filters [5]. In recent studies on multilayered structures, researchers have been using integer dimension substrate [1][2][3][4][5][6]21]; this means that the effect of dimension on the characteristics of structures was not considered. This research has been carried out to further include the parameter of dimension and see its effect on the characteristics of the multilayered structures, because not every object that exists in this universe can be modeled with Euclidean geometry (integer dimension).…”

Characteristics of Multilayered Metamaterial Structures Embedded in Fractional Space for Terahertz Application

Magnetic line source diffraction by a conductive half‐plane in an anisotropic plasma