Triple-band tunable perfect terahertz metamaterial absorber with liquid crystal
TLDR
In this paper, a triple-band tunable perfect terahertz metamaterial absorber (TMA) was proposed, which is composed of a planar metallic disk resonator array above a conductive ground plane separated with liquid crystal (LC) mixture.Abstract:
We report a compact triple-band tunable perfect terahertz metamaterial absorber (TMA) at the subwavelength scale of thickness, which is composed of a planar metallic disk resonator array above a conductive ground plane separated with liquid crystal (LC) mixture. The calculations of terahertz absorption spectra demonstrate triple near-unity absorption bands in the gap plasmonic resonance coupling regime. Three resonance frequencies of the absorber exhibit continuous linear-tunability as changing the refractive index of LC. Remarkably, each peak absorbance of the triple bands maintains at a level of beyond 99% in the whole tuning operation, and the absorbance can remain more than 90% over a wide range of incident angles. Our work suggests that the LC tunable absorber scheme has the potential to overcome the basic difficulty to perform simultaneously multiband spectral tuning and near-unity absorbance with wide angle of incidence and weak polarization dependence. The proposed LC-tunable multiband perfect TMA is promising in the application of biomolecular spectra-selective terahertz imaging and sensing.read more
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Journal ArticleDOI
Vanadium dioxide-assisted broadband tunable terahertz metamaterial absorber.
TL;DR: A broadband tunable THz absorber based on hybrid vanadium dioxide (VO2) metamaterials that is insensitive to the incident angle up to 50° and can be used in applications including imaging, modulating, cloaking, and so on.
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Broadband terahertz absorber with a flexible, reconfigurable performance based on hybrid-patterned vanadium dioxide metasurfaces.
TL;DR: An actively tunable broadband terahertz absorber is numerically demonstrated, which consists of four identical vanadium dioxide (VO2) square loops and a metal ground plane separated by a dielectric spacer that has the advantages of polarization insensitivity and wide-angle absorption.
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A Tunable Triple-Band Near-Infrared Metamaterial Absorber Based on Au Nano-Cuboids Array.
Feng Qin,Zeqiang Chen,Xifang Chen,Zao Yi,Weitang Yao,Tao Duan,Pinghui Wu,Hua Yang,Gongfa Li,Yougen Yi +9 more
TL;DR: The proposed structure has triple-band tunable perfect absorption peaks in the near infrared band and has good operational angle-polarization-tolerance, and the excellent properties of the designed absorber have promising applications in plasma-enhanced photovoltaic, optical absorption switching and infrared modulator optical communication.
Journal ArticleDOI
Active controllable dual broadband terahertz absorber based on hybrid metamaterials with vanadium dioxide
TL;DR: An active controllable terahertz absorber with dual broadband characteristics, comprised by two diagonal identical patterns of vanadium dioxide in the top layer of the classical three-layer structure of metamaterial perfect absorbers, that promises diverse applications in terAhertz regime, such as imaging, modulating, sensing and cloaking.
Journal ArticleDOI
Multi-band terahertz superabsorbers based on perforated square-patch metamaterials
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.