Fast Tunable Terahertz Absorber Based on a MEMS-driven Metamaterial

Mingkai Liu; Mohamad Susli; Dilusha Silva; Gino Putrino; Hemendra Kala; Shuting Fan; Michael Cole; Lorenzo Faraone; Vincent P. Wallace; Willie J. Padilla; David. A. Powell; Mariusz Martyniuk; Ilya V. Shadrivov

doi:10.1364/CLEO_QELS.2017.FM1G.5

Conference on Lasers and Electro-Optics
OSA Technical Digest (online) (Optica Publishing Group, 2017),
paper FM1G.5
•https://doi.org/10.1364/CLEO_QELS.2017.FM1G.5

Fast Tunable Terahertz Absorber Based on a MEMS-driven Metamaterial

Mingkai Liu, Mohamad Susli, Dilusha Silva, Gino Putrino, Hemendra Kala, Shuting Fan, Michael Cole, Lorenzo Faraone, Vincent P. Wallace, Willie J. Padilla, David. A. Powell, Mariusz Martyniuk, and Ilya V. Shadrivov

CLEO: QELS_Fundamental Science 2017

San Jose, California United States
14–19 May 2017
ISBN: 978-1-943580-27-9

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Parity-time Symmetry in Metamaterials (FM1G)

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M. Liu, M. Susli, D. Silva, G. Putrino, H. Kala, S. Fan, M. Cole, L. Faraone, V. P. Wallace, W. J. Padilla, D. A. Powell, M. Martyniuk, and I. V. Shadrivov, "Fast Tunable Terahertz Absorber Based on a MEMS-driven Metamaterial," in Conference on Lasers and Electro-Optics, OSA Technical Digest (online) (Optica Publishing Group, 2017), paper FM1G.5.

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Abstract

We present an experimental study of ultra-thin tunable THz absorbers based on MEMS-driven 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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