本文分析了超导量子干涉器(SQUID)和超导一绝缘-超导(SIS)约瑟夫森结散粒噪声测试方法的应用局限性,提出了常规器件的散粒噪声测试方案.针对常规电子器件散粒噪声特性,研究了噪声测试基本条件,并建立了低温测试系统.通过采用双层屏蔽结构和超低噪声前置放大器,实现了较好的电磁干扰屏蔽和极低的背景噪声.在10 K温度下对常规二极管散粒噪声进行了测试,通过理论和测试结果对比分析,验证了测试系统的准确和可信性.%The limitations to shot noise measurement methods based on superconducting quantum interference device (SQUID)and superconductivity-insulation-superconductor (SIS) Josephson junction are pointed out, and a method to measure the shot noises of conventional electronic devices is proposed. Shot noise characteristics of conventional electronic devices are analyzed, and then a low-temperature measurement system is established. By using a double-shielding construction and low noise preamplifier, the test system can achieve a good electromagnetic interference shielding and low background noise. The theoretical and the experimental results of shot noises in diodes at 10 K are in good agreement with each other.The accuracy and the credibility of measurement system are proved.
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