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2 July 1994 Fiber optic input and output for superconducting circuits
Lewis A. Bunz, Elie K. Track, Sergey V. Rylov, Fei-Yuh Perng, Jeffrey D. Morse
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Proceedings Volume 2160, Superconductive Devices and Circuits; (1994) https://doi.org/10.1117/12.181007
Event: OE/LASE '94, 1994, Los Angeles, CA, United States
Abstract
Superconducting devices operate at speeds where coaxial copper cables can be a limiting factor. Coaxial cables can limit frequency response and impose significant thermal loading on a cyrogenic system. The high bandwidth of optical fibers and their low thermal conductivity make them good candidates for providing data into and out of superconducting circuits. In this paper, we present the results of our experience in operating photodetectors and laser diodes together with superconducting circuits in the same low temperature (4.2 K) environment. Using these photodetectors, we demonstrate the input of optical signals to an analog superconducting circuit at 6 GHz. Output from a superconducting circuit operating at 500 MHz is fed into a laser diode, and optically coupled to room temperature electronics. By combining these two techniques, we demonstrate a fully operational superconducting shift register with both input and output signals supplied by optical fiber.
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Lewis A. Bunz, Elie K. Track, Sergey V. Rylov, Fei-Yuh Perng, and Jeffrey D. Morse "Fiber optic input and output for superconducting circuits", Proc. SPIE 2160, Superconductive Devices and Circuits, (2 July 1994); https://doi.org/10.1117/12.181007
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KEYWORDS
Superconductors
Sensors
Semiconductor lasers
Optical fibers
Indium gallium arsenide
Silicon
Fiber optics
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