Metamaterials exhibit properties beyond those exhibited by conventional materials in
conventional scenarios. These have been investigated both theoretically and experimentally …

Microwave absorbers (MAs) are specially designed structures which dissipate an incident
electromagnetic (EM) wave by converting it into thermal energy and thereby prevents …

Advanced wireless communication technology claims miniaturized, reconfigurable, highly
efficient, and flexible meta-devices for various applications, including conformal …

The field of flexible electronics is undergoing an exponential evolution due to the demand of
the industry for wearable devices, wireless communication devices and networks …

This work presents an ultrawideband and high-absorption structure (UHAS) obtained by a
fast design method. The proposed analytic approach can simply design single-FSS-layer …

Abstract Development and analysis of materials having flexibility, low dielectric constant and
tangent losses are greatly demandable in the field of wireless technology. The purpose of …

Microwave absorption in radar stealth technology is faced with challenges in terms of its
effectiveness in low-frequency regions. Herein, we report a new laser-based method for …

In this paper, an ultra-wideband flexible absorber is proposed. Based on a summary of the
absorption mechanism, using lossless air to replace the heavy lossy dielectric layer will not …

A tunable metamaterial absorber based on the liquid crystal intended for F frequency band
is presented. The proposed absorber was analyzed both numerically and experimentally …

The bandwidth-thickness tradeoff is fundamental to the design of thin absorbers based on
frequency-selective surfaces (FSSs). In this letter, we challenge the common belief that …