Metamaterial Electromagnetic Wave Absorbers
TL;DR: The ability of the MPA to exhibit extreme performance flexibility will be discussed and the theory underlying their operation and limitations will be established and Insight is given into what the authors can expect from this rapidly expanding field and future challenges will be addressed.
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Abstract: The advent of negative index materials has spawned extensive research into metamaterials over the past decade. Metamaterials are attractive not only for their exotic electromagnetic properties, but also their promise for applications. A particular branch–the metamaterial perfect absorber (MPA)–has garnered interest due to the fact that it can achieve unity absorptivity of electromagnetic waves. Since its first experimental demonstration in 2008, the MPA has progressed significantly with designs shown across the electromagnetic spectrum, from microwave to optical. In this Progress Report we give an overview of the field and discuss a selection of examples and related applications. The ability of the MPA to exhibit extreme performance flexibility will be discussed and the theory underlying their operation and limitations will be established. Insight is given into what we can expect from this rapidly expanding field and future challenges will be addressed.
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Citations
Ultra-Thin Multi-Band Polarization-Insensitive Microwave Metamaterial Absorber Based on Multiple-Order Responses Using a Single Resonator Structure.
TL;DR: An ultra-thin multi-band polarization-insensitive metamaterial absorber using a single circular sector resonator (CSR) structure in the microwave region that can remain at a high absorption level for all polarization of bothtransverse-electric and transverse-magnetic modes under normal incidence.
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Multi-band terahertz superabsorbers based on perforated square-patch metamaterials
Ben-Xin Wang,Yuanhao He,Pengcheng Lou,Huaxin Zhu +3 more
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TL;DR: In this paper, a multi-band terahertz superabsorber with a surface structure that consists of a square metallic patch with a very small rectangular hole whose area is only 3.94% of the square patch was presented.
Ultrathin multifunctional carbon/glass fiber reinforced lossy lattice metastructure for integrated design of broadband microwave absorption and effective load bearing
TL;DR: In this paper, a novel multifunctional carbon fiber (CF)/glass fiber (GF) reinforced lossy lattice metastructure was proposed for broadband microwave absorption and effective load bearing based on the structural similarity of photonic crystal and lightweight mechanical lattice.
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Metamaterial Absorbers: From Tunable Surface to Structural Transformation
TL;DR: In this article , a comprehensive and systematical overview of active MAs with adaptive and on-demand manner is presented, highlighting innovative materials and unique strategies to precisely control the electromagnetic response.
84
Design and characterization of a dual-band perfect metamaterial absorber for solar cell applications
Patrick Rufangura,Cumali Sabah +1 more
TL;DR: In this article, the authors proposed a metamaterial absorber design for solar energy harvesting using a simplified and symmetric structure, which consists of three important layers namely, the bottom metallic layer, which is gold lossy, the intermediate layer: made of a lossy dielectric material that is gallium arsenide and patches which formed by a combination of gold and gallium sulfide.
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