Open AccessCharacterization of an active metasurface using terahertz ellipsometry
Author(s) -
Nicholas Karl,
Martin S. Heimbeck,
Henry O. Everitt,
HouTong Chen,
Antoinette J. Taylor,
Igal Brener,
A. Benz,
J. L. Reno,
Rajind Mendis,
Daniel M. Mittleman
Publication year - 2017
Publication title -
applied physics letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.182
H-Index - 442
eISSN - 1077-3118
pISSN - 0003-6951
DOI - 10.1063/1.5004194
Subject(s) - terahertz radiation , ellipsometry , materials science , modulation (music) , characterization (materials science) , optoelectronics , dc bias , optics , physics , nanotechnology , thin film , quantum mechanics , voltage , acoustics
Switchable metasurfaces fabricated on a doped epi-layer have become an important platform for developing techniques to control terahertz (THz) radiation, as a DC bias can modulate the transmission characteristics of the metasurface. To model and understand this performance in new device configurations accurately, a quantitative understanding of the bias-dependent surface characteristics is required. We perform THz variable angle spectroscopic ellipsometry on a switchable metasurface as a function of DC bias. By comparing these data with numerical simulations, we extract a model for the response of the metasurface at any bias value. Using this model, we predict a giant bias-induced phase modulation in a guided wave configuration. These predictions are in qualitative agreement with our measurements, offering a route to efficient modulation of THz signals.
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