Tunable terahertz fishnet metamaterial

Chang, Cheng; Wang, Wei Chih; Lin, Hong Ren; Hsieh, Feng Ju; Pun, Edwin Yue-Bun; Chan, Chi Hou

doi:10.1063/1.4801648

Cited by 40 publications

(20 citation statements)

References 49 publications

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“…This is reminiscent of the recent studies either by restricting liquid crystal in the certain periodic structure, 21,22 or employing resistor network based on transformation optics theory to electrically tune the metamaterials. 23 However, disadvantages of complexity in manufacturing and the burden of extra DC power source in these studies cannot be ignored.…”

Section: Resultsmentioning

confidence: 99%

Metacomposite characteristics and their influential factors of polymer composites containing orthogonal ferromagnetic microwire arrays

Luo

Peng

Qin³

et al. 2014

Journal of Applied Physics

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The microwave properties of glass-fibers reinforced polymer composite embedded with an orthogonal array of Fe 77 Si 10 B 10 C 3 microwires have been investigated. The composites containing orthogonal wire arrays display a remarkable transmission window in the frequency band of 1 to 6GHz under zero external magnetic field indicating an intrinsic double-negative-index characteristic.The polymer matrices have proved to exert a synergistic effect on the microwave properties, which is responsible for the disappearance of the transmission windows when E k is perpendicular to the glass fiber direction. The plasma frequency of the orthogonal microwire array composite is higher than that of the parallel microwire array with identical wire spacing; this could be attributed to the enhanced microwire-wave interaction induced by the axial electrical components on the additional layer of perpendicular wires. All these features make this new kind of orthogonal microwire composites promising for potential cloaking and sensing applications.

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Section: Resultsmentioning

confidence: 99%

Metacomposite characteristics and their influential factors of polymer composites containing orthogonal ferromagnetic microwire arrays

Luo

Peng

Qin³

et al. 2014

Journal of Applied Physics

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“…This way, notable modulation depths in transmittance [6,7,[9][10][11] or reflectance [5,8,12,13] have been reached even for deeply subwavelength cell thicknesses.…”

Section: Introductionmentioning

confidence: 98%

“…A promising approach towards more compact and faster LC-tunable terahertz components [5][6][7][8][9][10][11][12] has been to infiltrate the LC into a resonant metamaterial structure and utilize the ensuing large electric-field enhancement to strengthen the interaction between the incoming field and the LC. This way, notable modulation depths in transmittance [6,7,[9][10][11] or reflectance [5,8,12,13] have been reached even for deeply subwavelength cell thicknesses.…”

Section: Introductionmentioning

confidence: 99%

Electrically Tunable Critically Coupled Terahertz Metamaterial Absorber Based on Nematic Liquid Crystals

et al. 2015

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Liquid-crystal devices are a promising cheap alternative for terahertz light modulation, albeit they suffer from problems associated with thick cells. Here we describe a few-micron-thick polarization-independent nematic liquid-crystal metamaterial device displaying terahertz reflectance modulation depths above 23 dB, millisecond response times, low operating voltages, and a spectral tuning of more than 15%. The dramatic performance improvement is based on invoking critical coupling with external fields, which rests on a suitable choice of resonator geometry. We analyze the coupling mechanism to conclude that perfect absorption can be reached with a wide range of parameters and liquid-crystal materials. The proposed device performance, microscopic details, and the nematic molecule switching dynamics are evaluated with the use of a rigorous tensorial formulation of the Landau-de Gennes theory and shown to be robust to small parameter deviations.

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“…They have been long used as the active element in electric field-actuated photonic devices [4], and recently their use has been extended into the field of THz science and metamaterials [5][6][7][8]. LC-tunable devices show extremely low power consumption, combined with large refractive index modulation and polarization control features.…”

Section: Introductionmentioning

confidence: 99%

Liquid-crystal tunable fishnet terahertz metamaterials

Zografopoulos

Beccherelli

2014

2014 Fotonica AEIT Italian Conference on Photonics Technologies

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A liquid-crystal tunable fishnet metamaterial is designed and investigated for use in the terahertz spectrum. A nematic material layer is introduced between the two fishnet metallic structures. Tuning of the nematic molecular orientation is shown to shift the magnetic resonance frequency of the metamaterial and its electromagnetic properties. A shift of 100 GHz is demonstrated for common dielectric and liquidcrystalline materials used in terahertz technology. The response time of the tunable metamaterial is in the millisecond range, orders of magnitude lower than in thus far demonstrated liquidcrystal based terahertz components.

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Tunable terahertz fishnet metamaterial

Cited by 40 publications

References 49 publications

Metacomposite characteristics and their influential factors of polymer composites containing orthogonal ferromagnetic microwire arrays

Metacomposite characteristics and their influential factors of polymer composites containing orthogonal ferromagnetic microwire arrays

Electrically Tunable Critically Coupled Terahertz Metamaterial Absorber Based on Nematic Liquid Crystals

Liquid-crystal tunable fishnet terahertz metamaterials

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