29 April 2016 Terahertz metamaterials: design, implementation, modeling and applications
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Sub-wavelength metamaterial structures are of great fundamental and practical interest because of their ability to manipulate the propagation of electromagnetic waves. We review here our recent work on the design, simulation, implementation and equivalent circuit modeling of metamaterial devices operating at Terahertz frequencies. THz metamaterials exhibiting plasmon-induced transparency are realized through the hybridization of double split ring resonators on either silicon or flexible polymer substrates and exhibiting slow light properties. THz metamaterials perfect absorbers and stereometamaterials are realized with multifunctional specifications such as broadband absorbing, switching, and incident light polarization selectivity.
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Mohammad P. Hokmabadi, Mohammad P. Hokmabadi, Soner Balci, Soner Balci, Juhyung Kim, Juhyung Kim, Elizabath Philip, Elizabath Philip, Elmer Rivera, Elmer Rivera, Muliang Zhu, Muliang Zhu, Patrick Kung, Patrick Kung, Seongsin M. Kim, Seongsin M. Kim, } "Terahertz metamaterials: design, implementation, modeling and applications", Proc. SPIE 9856, Terahertz Physics, Devices, and Systems X: Advanced Applications in Industry and Defense, 98560B (29 April 2016); doi: 10.1117/12.2229333; https://doi.org/10.1117/12.2229333

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