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Kerr, A. R., Feldman, M. J., & Pan, S. - K. (1997). Receiver noise temperature, the quantum noise limit, and zero–point fluctuations. In Proc. 8th Int. Symp. Space Terahertz Technol. (pp. 101–111).
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de Lange, G., Hu, Q., Huang, H., & Lichtenberger, A. W. (1997). Development of a 170-210 GHz 3×3 micromachined SIS imaging array. In Proc. 8th Int. Symp. Space Terahertz Technol. (518).
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Ekstörm, H., Kollberg, E., Yagoubov, P., Gol'tsman, G., Gershenzon, E., & Yngvesson, S. (1997). Gain and noise bandwidth of NbN hot-electron bolometric mixers. Appl. Phys. Lett., 70(24), 3296–3298.
Abstract: We have measured the noise performance and gain bandwidth of 35 Å thin NbN hot-electron mixers integrated with spiral antennas on silicon substrate lenses at 620 GHz. The best double-sideband receiver noise temperature is less than 1300 K with a 3 dB bandwidth of ≈5 GHz. The gain bandwidth is 3.2 GHz. The mixer output noise dominated by thermal fluctuations is 50 K, and the intrinsic conversion gain is about −12 dB. Without mismatch losses and excluding the loss from the beamsplitter, we expect to achieve a receiver noise temperature of less than 700 K.
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Mann, C. M., Matheson, D. N., Ellison, B. N., Oldfield, M. L., Moyna, B. P., Spencer, J. J., et al. (1998). On the design and measurement of a 2.5 THz waveguide mixer. In Proc. 9th Int. Symp. Space Terahertz Technol. (161).
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Tetsu Suzuki, Chris Mann, Takanari Yasui, Hirotomo Fujishima, & Koji Mizuno. (1998). Quasi–integrated planar Schottky barrier diodes for 2.5 THz receivers. In Proc. 9th Int. Symp. Space Terahertz Technol. (187).
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