An in-plane hybrid design is proposed to achieve broadband radar cross section (RCS) reduction based on the integration of a diffusion scattering electromagnetic band-gap (EBG) metasurface and a magnetic absorbing material (MAM) at a thin thickness (d). A scattering field calculation formula is derived for the hybrid design, in which the MAM and EBG metasurface have complementary dominant working bands. Moreover, they are able to achieve strong RCS reduction in broad band by working together. As a result, the as-designed hybrid metasurface show in both simulation and experiment an unprecedented broadband RCS reduction of 6 dB in the frequency range of 5–34 GHz with d of only 2 mm. The design strategy proposed here provides a feasible and ex...
In this paper, recent developments of metamaterials and metasurfaces for RCS reduction are reviewed,...
This article presents the design of 1-bit metasurfaces for radar cross section (RCS) reduction over ...
Design criteria of low-cost, dual-concentric metasurface possessing wideband phase gradient (PG) are...
This review discusses the evolution of the various radar cross-section (RCS) reduction techniques, w...
In this paper, an ultra-wideband, wide angle and polarization-insensitive metasurface is designed, f...
In this paper, an ultra-wideband, wide angle and polarization-insensitive metasurface is designed, f...
In this article, a simple and effective approach is presented to reduce the Radar Cross Section (RCS...
We make preliminary investigations on a new approach to reducing radar cross section (RCS) of conduc...
This paper experimentally investigates the mono- and bistatic scattering cross section of an electri...
A novel shared aperture metasurface (SA-MS) for ultra-wideband radar cross section (RCS) reduction i...
A broadband and polarization-independent metasurface is analyzed and designed for both monostatic an...
In this paper, two novel artificial magnetic conductors (AMC) structures are designed to realize 180...
Abstract A full-wave analytical method using the addition theorems and Hertzian potential functions ...
In this article, a single layer co-polarization broadband radar absorber is presented. Under normal ...
Design criteria of low-cost, dual-concentric metasurface possessing wideband phase gradient (PG) are...
In this paper, recent developments of metamaterials and metasurfaces for RCS reduction are reviewed,...
This article presents the design of 1-bit metasurfaces for radar cross section (RCS) reduction over ...
Design criteria of low-cost, dual-concentric metasurface possessing wideband phase gradient (PG) are...
This review discusses the evolution of the various radar cross-section (RCS) reduction techniques, w...
In this paper, an ultra-wideband, wide angle and polarization-insensitive metasurface is designed, f...
In this paper, an ultra-wideband, wide angle and polarization-insensitive metasurface is designed, f...
In this article, a simple and effective approach is presented to reduce the Radar Cross Section (RCS...
We make preliminary investigations on a new approach to reducing radar cross section (RCS) of conduc...
This paper experimentally investigates the mono- and bistatic scattering cross section of an electri...
A novel shared aperture metasurface (SA-MS) for ultra-wideband radar cross section (RCS) reduction i...
A broadband and polarization-independent metasurface is analyzed and designed for both monostatic an...
In this paper, two novel artificial magnetic conductors (AMC) structures are designed to realize 180...
Abstract A full-wave analytical method using the addition theorems and Hertzian potential functions ...
In this article, a single layer co-polarization broadband radar absorber is presented. Under normal ...
Design criteria of low-cost, dual-concentric metasurface possessing wideband phase gradient (PG) are...
In this paper, recent developments of metamaterials and metasurfaces for RCS reduction are reviewed,...
This article presents the design of 1-bit metasurfaces for radar cross section (RCS) reduction over ...
Design criteria of low-cost, dual-concentric metasurface possessing wideband phase gradient (PG) are...