Abstract
We accurately measured the noise temperature and conversion loss of a cryogenically cooled Schottky diode operating near 800 GHz, using the UCB/MPE Submillimeter Receiver at the James Clerk Maxwell Telescope. The receiver temperature was in the range of the best we now routinely measure, 3150 K (DSB). Without correcting for optical loss or IF mismatch, the raw measurements set upper limits ofT M=2850 K andL M=9.1 dB (DSB), constant over at least a 1 GHz IF band centered at 6.4 GHz with an LO frequency of 803 GHz. Correction for estimated optical coupling and mismatch effects yieldsT M=1600 K andL M=5.5 dB (DSB) for the mixer diode itself. These values indicate that our receiver noise temperature is dominated by the corner cube antenna's optical efficiency and by mixer noise, but not by conversion loss or IF mismatch. The small fractional IF bandwidth, measured mixer IF band flatness from 2 to 8 GHz, and similarly good receiver temperatures at other IF frequencies imply that these values are representative over a range of frequencies near 800 GHz.
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References
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Semiconductor Devices Lab, University of Virginia, Charlottesville, VA.
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Nett, H. 1989, Ph.D. Thesis, Universiät zu Bonn.
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Harris, A.I., Stutzki, J., Graf, U.U. et al. Measured mixer noise temperature and conversion loss of a cryogenic Schottky diode mixer near 800 GHz. Int J Infrared Milli Waves 10, 1371–1376 (1989). https://doi.org/10.1007/BF01010128
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DOI: https://doi.org/10.1007/BF01010128