Miniaturized and actively tunable triple-band terahertz metamaterial absorber using an analogy I-typed resonator
BX Wang, C Xu, G Duan, J Jiang, W Xu, Z Yang… - Nanoscale Research …, 2022 - Springer
Triple-band terahertz metamaterial absorber with design of miniaturization and compactness
is presented in this work. The unit cell of the terahertz absorber is formed by an analogy I …
is presented in this work. The unit cell of the terahertz absorber is formed by an analogy I …
Machine learning techniques for predicting metamaterial microwave absorption performance: a comparison
This work presents a metamaterial absorber (MMA) for X-and Ku-bands with a metallic
resonating patch on top and a ground plane separated by substrate FR-4 with a thickness of …
resonating patch on top and a ground plane separated by substrate FR-4 with a thickness of …
A review of metamaterial absorbers and their application in sensors and radar cross‐section reduction
P Garg, P Jain - Microwave and Optical Technology Letters, 2023 - Wiley Online Library
In the past few decades, metamaterial absorbers (MA) have become an important area of
research due to their potential application as ultrathin perfect absorbers. There are various …
research due to their potential application as ultrathin perfect absorbers. There are various …
A gap coupled hexagonal split ring resonator based metamaterial for S-band and X-band microwave applications
A gap coupled hexagonal split ring resonator (GCHSRR) based metamaterial is presented
in this paper for S-band and X-band microwave applications with absorptance. This gap …
in this paper for S-band and X-band microwave applications with absorptance. This gap …
New compact six-band metamaterial absorber based on Closed Circular Ring Resonator (CCRR) for Radar applications
In this paper, we developed a new design of multiband perfect metamaterials absorber
(MTMA) to be operated in the frequency range of 8–12 GHz. Proposed structure consists of a …
(MTMA) to be operated in the frequency range of 8–12 GHz. Proposed structure consists of a …
A wrenched-square shaped polarization independent and wide angle stable ultra-thin metamaterial absorber for S-band, X-band and Ku-band applications
In this paper, a miniaturized quad-band polarization independent metamaterial loaded ultra-
thin absorber is presented. The structure of the proposed absorber designed such that one …
thin absorber is presented. The structure of the proposed absorber designed such that one …
Broadband metamaterial absorber for stealth applications at K-band
This paper focuses on the design and analysis of a polarization-insensitive wide-angle
broadband metamaterial absorber for stealth applications at the K band. The unit cell of the …
broadband metamaterial absorber for stealth applications at the K band. The unit cell of the …
Polarization independent triple band ultrathin conformal metamaterial absorber for C-and X-frequency bands
A triple-band polarization-independent conformal absorber for C-and X-frequency bands
have been presented. The designed absorber comprises a Jerusalem cross resonator at the …
have been presented. The designed absorber comprises a Jerusalem cross resonator at the …
Optically transparent triple and dual band terahertz metamaterial absorber based on indium tin oxide and PET substrate
K Mahendran, H Sudarsan, S Rathika - AEU-International Journal of …, 2023 - Elsevier
A simple optically transparent polarization and angular insensitive triple and dual band
Terahertz (THz) Metamaterial Absorber (MMA) is designed and analysed in this paper. The …
Terahertz (THz) Metamaterial Absorber (MMA) is designed and analysed in this paper. The …
Multiband polarization insensitive metamaterial absorber for radar cross-section reduction
L Dewangan, NK Mishra - AEU-International Journal of Electronics and …, 2023 - Elsevier
In this paper, a polarization-insensitive, metamaterial absorber with more than 91%
absorptivity is investigated numerically and experimentally for radar cross-section reduction …
absorptivity is investigated numerically and experimentally for radar cross-section reduction …