Experimental realization of ultrathin, double-sided metamaterial perfect absorber at terahertz gap through stochastic design process

We design and demonstrate a flexible, ultrathin and double-sided metamaterial perfect absorber (MPA) at 2.39 terahertz (THz), which enables excellent light absorbance under incidences from two opposite sides. Herein, the MPA is fabricated on a λ 0 /10.1-thick flexible polyethylene terephthalate subs...

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Bibliographic Details
Published in:Scientific reports 2015-12, Vol.5 (1), p.18605-18605, Article 18605
Main Authors: Huang, Tsung-Yu, Tseng, Ching-Wei, Yeh, Ting-Tso, Yeh, Tien-Tien, Luo, Chih-Wei, Akalin, Tahsin, Yen, Ta-Jen
Format: Article
Language:English
Subjects:
639/301/1019/1015
639/624/400/561
Humanities and Social Sciences
multidisciplinary
Science
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Summary:We design and demonstrate a flexible, ultrathin and double-sided metamaterial perfect absorber (MPA) at 2.39 terahertz (THz), which enables excellent light absorbance under incidences from two opposite sides. Herein, the MPA is fabricated on a λ 0 /10.1-thick flexible polyethylene terephthalate substrate of ε r  = 2.75 × (1 + 0.12 i ), sandwiched by two identical randomized metallic patterns by our stochastic design process. Such an MPA provides tailored permittivity and permeability to approach the impedance of free space for minimizing reflectance and a great imaginary part of the refractive index for reducing transmittance and finally results in high absorbance. Both experimental measurement and numerical simulation are in a good agreement. The flexible, ultrathin and double-sided MPA significantly differs from traditional quarter-wavelength absorbers and other single-sided perfect absorbers, paving a way toward practical THz applications in thermal emission, sensing and imaging, communications, stealth technique and even energy harvesting.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep18605