超高频卫星通信终端技术中超导电子学的潜力

D. T. Hayes
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引用次数: 0

摘要

铌(T/sub c/=9 K)和氮化铌(T/sub c/=16 K)等折射率超导材料被用于开发毫米波和亚毫米波电子器件。作者介绍了这一方案,并讨论了超导电子学的固有优点和高温材料在通信系统中的潜力。工作集中在三个方面:(1)在0.1- 0.3太赫兹频率范围内工作的相控阵接收器组件的开发;(2)研究NbN Josephson结(JJ)技术和JJ阵列,为太赫兹频段的类似发展提供基础构建模块;(3)利用超导技术开发模拟和数字信号处理装置。
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The potential of superconductive electronics for EHF SATCOM terminal technologies
Refractive superconducting materials such as niobium (T/sub c/=9 K) and niobium nitride (T/sub c/=16 K) are used in the development of electronic devices for use at millimeter and submillimeter wavelengths. The author describes this program, and discusses the inherent advantages of superconductive electronics and the potential of the high-temperature materials for communication systems. The work concentrates on three areas: (1) the development of the components of a phased-array receiver operating in the 0.1-to-0.3 THz frequency regime; (2) research into NbN Josephson junction (JJ) technology and JJ arrays to provide the basic building blocks for a similar development in the THz regime; and (3) the development of analog and digital signal processing devices using superconducting technology.<>
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