Ming He scite author profile

We experimentally demonstrate a planar terahertz Fano metamaterial with an ultrahigh quality (Q) factor of 227. This is achieved by the excitation of the nonradiative dark modes by introducing a tiny asymmetry in the metamaterial structure. The extremely sharp quadrupole and Fano resonances are excited at normal incidence for orthogonal polarizations of the electric field. In order to capture the narrow linewidth of the dark resonance modes, we perform high resolution terahertz time-domain measurements with a scan length of 200 picoseconds and frequency resolution of 5 GHz. These high-Q metamaterials can be used in ultrasensitive label-free terahertz sensing, dense photonic integration, and narrowband filtering.

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Terahertz superconductor metamaterial

Singh

Tian

et al. 2010

118

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We characterize the behavior of split ring resonators made up of high transition temperature yttrium barium copper oxide superconductor using terahertz time-domain spectroscopy measurements and numerical simulations. The superconductor metamaterial is found to show a remarkable change in the transmission spectra at the fundamental inductive-capacitive resonance as the temperature dips below the critical transition temperature. This resonance switching effect is normally absent in traditional metamaterials made up of regular metals. The temperature-dependent resonance behavior of the superconducting metamaterial would lead to development of low loss terahertz switches at cryogenic temperatures.

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Status of wetlands in China: A review of extent, degradation, issues and recommendations for improvement

Wang

et al. 2017

Ocean & Coastal Management

152

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Effect of dielectric properties of metals on terahertz transmission in subwavelength hole arrays

et al. 2006

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We study the influence of dielectric function of metals on the transmission properties of terahertz pulses through periodically patterned subwavelength holes. Because of a drastic increase in the value of dielectric constants, most metals become highly conductive at terahertz frequencies. Extraordinary terahertz transmission is observed in subwavelength hole arrays made from both good and poor electrical conductors. The measured transmittance of terahertz pulses is found to be enhanced with increasing ratio of the real to the imaginary dielectric constant of the constituent metals, for which the dielectric function follows the Drude model.

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Temporal-spatial variations and driving factors analysis of coastal reclamation in China

Wang

et al. 2017

Estuarine, Coastal and Shelf Science

122

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Invasion and ecological effects of exotic smooth cordgrass Spartina alterniflora in China

Wang

Feagin

Innocenti

et al. 2020

Ecological Engineering

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Optical and dielectric properties of ZnO tetrapod structures at terahertz frequencies

Han

Zhang

Ray

et al. 2006

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The low-frequency optical and dielectric properties of ZnO tetrapod structures prepared by thermophysical method were studied by terahertz time-domain spectroscopy. The power absorption, refractive index, and the complex dielectric function were measured in the frequency range from 0.2to3.5THz. Based on a simple effective medium theory, the low-frequency dielectric properties of ZnO tetrapods were found to be associated with the transverse optical E1 phonon mode, which is consistent with that observed in bulk single-crystal ZnO.

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Spiral-type terahertz antennas and the manifestation of the Mushiake principle

et al. 2009

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We report on the experimental and theoretical study of the resonant eigenmodes of spiral-type terahertz antennas. The analysis is carried out for a varying number of spiral windings. For larger numbers the structure possesses a self-complementary property which allows the application of the Mushiake principle predicting that the impedance of such structures is half the impedance of free space. This permits to observe an equal and frequency independent reflection and transmission coefficient. This property makes the spiral-type terahertz antenna not only a fascinating example of a medium supporting strong resonances in the long wavelength limit but also a medium which can be easily and reasonably homogenized at higher frequencies. This is in stark contrast to most of the existing metamaterials.

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Ming He

Low-loss ultra-high-Q dark mode plasmonic Fano metamaterials

Terahertz superconductor metamaterial

Status of wetlands in China: A review of extent, degradation, issues and recommendations for improvement

Effect of dielectric properties of metals on terahertz transmission in subwavelength hole arrays

Temporal-spatial variations and driving factors analysis of coastal reclamation in China

Invasion and ecological effects of exotic smooth cordgrass Spartina alterniflora in China

Optical and dielectric properties of ZnO tetrapod structures at terahertz frequencies

Spiral-type terahertz antennas and the manifestation of the Mushiake principle

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