Enhanced performance of resonant sub-terahertz detection in a plasmonic cavity

Enhanced performance of resonant sub-terahertz detection in a plasmonic cavity

A multi-gate high electron mobility transistor coupled to a log-periodic antenna was engineered to detect sub-terahertz radiation through resonant excitation of plasmon modes in the channel. The device was integrated with a silicon hyper-hemispherical lens in order to enhance radiation collection an...

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Bibliographic Details
Published in:Applied physics letters Vol. 100; no. 8; pp. 083506 - 083506-4
Main Authors: Dyer, G. C., Preu, S., Aizin, G. R., Mikalopas, J., Grine, A. D., Reno, J. L., Hensley, J. M., Vinh, N. Q., Gossard, A. C., Sherwin, M. S., Allen, S. J., Shaner, E. A.
Format: Journal Article
Language:English
Published: American Institute of Physics 20-02-2012
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Summary:A multi-gate high electron mobility transistor coupled to a log-periodic antenna was engineered to detect sub-terahertz radiation through resonant excitation of plasmon modes in the channel. The device was integrated with a silicon hyper-hemispherical lens in order to enhance radiation collection and eliminate parasitic substrate modes. The continuous detector response spectrum from 185GHz to 380GHz indicates the presence of distinct collective plasmonic cavity modes resulting from the quantization of the plasmon wavevector. In a bolometric detection mode, a noise equivalent power of less than 50 pW/Hz 1/2 and a responsivity exceeding 100kV/W have been measured at 11.5K.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.3687698