In recent years, the field of metamaterial cloaks has experienced remarkable progress,
propelling it to the forefront of scientific exploration. This comprehensive review seeks to …

This paper presents a scheme to achieve a broadband metamaterial absorber in the
terahertz region, which is consisted of an anti-symmetric T-shaped resonator (formed by two …

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 …

The efficient harvesting of electromagnetic (EM) waves by subwavelength nanostructures
can result in perfect light absorption in the narrow or broad frequency range. These …

We numerically propose and demonstrate an ultra-narrow perfect metamaterial absorber
(PMA) for refractive index sensing applications in the terahertz region. The designed PMA is …

We propose and numerically investigate a novel ultra-broadband solar absorber by applying
iron in a 2D simple metamaterial structure. The proposed structure can achieve the perfect …

In this paper, we demonstrate a dual-band tunable absorber coupled with a nanoscale metal-
dielectric-metal (MDM) structure for sensing applications in the near-infrared spectral region …

We propose a plasmonic perfect absorber (PPA) based on metal nanorod arrays with the
connected veins for ultra-sensitive refractive index (RI) sensing applications in the near …

In this paper, we propose a methodology to maximize the absorption bandwidth of a metal-
insulator-metal (MIM) based absorber. The proposed structure is made of a Cr-Al_2O_3-Cr …

In recent years, sub-wavelength metamaterials-based light perfect absorbers have been the
subject of many studies. The most frequently utilized absorber configuration is based on …