Fast tunable terahertz absorber based on a MEMS-driven metamaterial
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Liu, Mingkai
Susli, Mohamad
Silva, Dilusha
Putrino, Gino
Kala, Hemendra
Fan, Shuting
Cole, Michael
Faraone, Lorenzo
Wallace, Vincent P.
Padilla, Willie J.
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Institute of Electrical and Electronics Engineers Inc.
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Abstract
We present an experimental study of ultra-Thin tunable THz absorbers based on MEMSdriven metamaterials. Using the high mechanical sensitivity of thin subwavelength metamaterial absorbers, we proposed a paradigm to combine meta-Atoms and suspended flat membranes to simultaneously maximize the near-field coupling and avoid resonance broadening. We employed a MEMS technology and successfully fabricated THz absorbers based on integration of meta-Atoms and MEMS, demonstrating giant tuning of resonant absorption. The devices presented in this paper are among the best-performing tunable THz absorbers achieved to date, particularly in device thickness and tunability characteristics.
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2017 Conference on Lasers and Electro-Optics, CLEO 2017 - Proceedings
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