Haiyu Zheng scite author profile

Using a planar and flexible metamaterial (MM), we obtained the low-frequency perfect absorption even with very small unit-cell size in snake-shape structure. These shrunken, deep-sub-wavelength and thin MM absorbers were numerically and experimentally investigated by increasing the inductance. The periodicity/thickness (the figure of merit for perfect absorption) is achieved to be 10 and 2 for single-snake-bar and 5-snake-bar structures, respectively. The ratio between periodicity and resonance wavelength (in mm) is close to 1/12 and 1/30 at 2 GHz and 400 MHz, respectively. The absorbers are specially designed for absorption peaks around 2 GHz and 400 MHz, which can be used for depressing the electromagnetic noise from everyday electronic devices and mobile phones.

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Highly-dispersive transparency at optical frequencies in planar metamaterials based on two-bright-mode coupling

Jin

et al. 2011

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Using a planar metamaterial, which consists of two silver strips, we theoretically demonstrate the plasmonic electromagnetically-induced transparency (EIT)-like spectral response at optical frequencies. The two silver strips serve as the bright modes, and are excited strongly by the incident wave. Based on the weak hybridization between the two bright modes, a highly-dispersive plasmonic EIT-like spectral response appears in our scheme. Moreover, the group index is higher than that of another scheme which utilizes the strong coupling between the bright and dark modes.

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Tunable dual-band perfect absorbers based on extraordinary optical transmission and Fabry-Perot cavity resonance

et al. 2012

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Magnetic resonance is considered to be a necessary condition for metamaterial perfect absorbers, and dual-band absorbers can be composed of a pair of metallic layers with anti-parallel surface currents. We designed and fabricated a tunable dual-band perfect absorber based on extraordinary-optical-transmission (EOT) effect and Fabry-Perot cavity resonance. The idea and the mechanism are completely different from the absorber based on the near-field interaction. The important advantage of our structure is that we can switch a single-band absorber to a dual-band absorber by changing the distance between two metallic layers and/or incident angle. The peak originating from the EOT effect becomes significantly narrower, resulting in an increase of the Q-factor from 16.88 to 49. The dual-band absorber can be optimized to be insensitive to the polarization of the incident electromagnetic wave by slightly modifying the absorber structure.

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THz-metamaterial absorbers

Pham

Park

et al. 2013

Adv. Nat. Sci: Nanosci. Nanotechnol.

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An ultrabroad-band metamaterial absorber was investigated in mid-IR regime based on a similar model in previous work. The high absorption of metamaterial was obtained in a band of 8–11.7 THz with energy loss distributed in SiO2, which is appropriate potentially for solar-cell applications. A perfect absorption peak was provided by using a sandwich structure with periodical anti-dot pattern in the IR region, getting closed to visible-band metamaterials. The dimensional parameters were examined for the corresponding fabrication.

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Plasmonic electromagnetically-induced transparency in metamaterial based on second-order plasmonic resonance

Jin

Zheng

et al. 2011

Optics Communications

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Haiyu Zheng

Flexible and elastic metamaterial absorber for low frequency, based on small-size unit cell

Highly-dispersive transparency at optical frequencies in planar metamaterials based on two-bright-mode coupling

Tunable dual-band perfect absorbers based on extraordinary optical transmission and Fabry-Perot cavity resonance

THz-metamaterial absorbers

Plasmonic electromagnetically-induced transparency in metamaterial based on second-order plasmonic resonance

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