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13 May 2019 Terahertz plasmonic field effect transistors for imaging applications
M. Shur, N. Pala
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Proceedings Volume 10982, Micro- and Nanotechnology Sensors, Systems, and Applications XI; 109822Z (2019) https://doi.org/10.1117/12.2517428
Event: SPIE Defense + Commercial Sensing, 2019, Baltimore, MD, United States
Abstract
Terahertz (THz) imaging technology applications require fast electronic devices with high responsivity, good selectivity, and large bandwidth. Field Effect Transistors operating in the THz or sub-THz range and using the rectification of plasma waves satisfy these requirements. InGaAs-based, GaN-based, and Si nanostructure arrays of plasmonic devices (referred to as TeraFETs) compete for plasmonic THz imaging applications. Depending on the channel size and the electron mobility, TeraFETs could operate in three different plasmonic regimes - collision-dominated, ballistic, and viscous with the highest modulation frequency reaching the sub-THz range of frequencies. Another advantage of TeraFETs as imaging elements is a wide dynamic range - from relatively low intensity signals up to the high intensity impinging THz beam causing the excitation of nonlinear plasma waves, such as shock waves or solitons propagating in the device channels. The TeraFETs could achieve resolution down to the nanometer scale. The plasmonic electronics technology might become a dominant THz electronics technology and support sensing, imaging, and communications at THz frequencies
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M. Shur and N. Pala "Terahertz plasmonic field effect transistors for imaging applications", Proc. SPIE 10982, Micro- and Nanotechnology Sensors, Systems, and Applications XI, 109822Z (13 May 2019); https://doi.org/10.1117/12.2517428
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KEYWORDS
Terahertz radiation
Plasma
Field effect transistors
Plasmonics
Imaging systems
Silicon
Sensors
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