Abstract
A detailed theoretical and experimental study of the heterodyne performance of a quasioptical Schottky diode detector is presented. The experimental results have been obtained by mixing the radiation from a FIR laser with the output of a 67–73 GHz Klystron. The heterodyne signal variation versus various parameters and its relation to the special case of two lasers mixing are described. The mixer characteristics are a NEP value of 2×10−19W/Hz and a detector bandwidth of at least 9 GHz. Experimental evidence of harmonics generation of submillimetric frequencies at the diode junction is also presented.
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Waksberg, A. and Drèze, C., (1984) Int. J. Infrared and MM Waves, Vol. 5 (10), p. 1355.
Drèze, C., Waksberg, A. and Davis, B.W. (1984), Int. J. Infrared and MM Waves, Vol. 5 (10), p. 1361.
Davis, B.W., Drèze, C. and Waksberg, A., (1984), Opt. Communications, Vol. 52 (2), p. 123.
Waksberg, A. and Drèze, C., to be published.
Tsang, D.W. and Schwarz, S.E., (1979), J. Appl. Phys., Vol. 50 (5), p. 3459.
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Dréze, C., Waksberg, A. & Davis, B.W. Heterodyne performance of a quasioptical Schottky diode detector: Theoretical and experimental results. Int J Infrared Milli Waves 6, 387–403 (1985). https://doi.org/10.1007/BF01009766
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DOI: https://doi.org/10.1007/BF01009766