Metamaterial absorbers have been widely studied and continuously concerned owing to
their excellent resonance features of ultra‐thin thickness, light‐weight, and high absorbance …

The emergence of metamaterials and their continued prosperity have built a powerful
working platform for accurately manipulating the behavior of electromagnetic waves …

Metasurfaces with actively tunable features are highly demanded for advanced applications
in electronic and electromagnetic systems. However, realizing independent dual-tunability …

Microwave absorbing metasurfaces with optical transparency are essentially useful in
electromagnetic compatibility, stealth, or camouflage while keeping continuous optical …

The recent development of metasurfaces offers a unique technique for the arbitrary control of
electromagnetic waves by spatially manipulating their amplitudes and phases. However …

Achieving ultra-broadband and completely modulated absorption enhancement of
monolayer graphene in near-infrared region is practically important to design graphene …

We theoretically study the very sharp absorption enhancement of the single layer graphene
by the surface plasmon polaritons in near-infrared region. We place the single layer …

An ultra-broadband absorber is introduced based on a multilayer graphene structure. Wave
absorption of the optimized device is> 90% in the bandwidth between 1.12 THz and 3.78 …

In this study, we designed a novel ultra-wideband (UWB) absorber and numerically
analyzed it to demonstrate that its light absorptivity was greater than 90% in the wavelength …

We theoretically study how to greatly improve the near-infrared light absorption of monolayer
graphene through the excitation of magnetic resonance in metamaterials. The absorption …