Operation of SNIS arrays in a cryocooler

29th Conference on Precision Electromagnetic Measurements (CPEM 2014) Pub Date : 2014-10-02 DOI:10.1109/CPEM.2014.6898557

A. Sosso, B. Trinchera, E. Monticone, M. Fretto, R. Rocci, L. Roncaglione, D. Serazio, V. Lacquaniti

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引用次数: 1

Abstract

Avoiding liquid helium is now a worldwide issue, thus cryocooler operation is becoming essential for a wider use of superconductive electronics. Higher temperature operation of devices is advisable to reduce the refrigerator size and complexity, but arrays of Josephson junctions made with high temperature superconductors for voltage standard applications are not to date available. The SNIS (Superconductor-Normal metal-Insulator-Superconductor) junction technology developed at INRIM, based on low temperature superconductors, but capable of operation well above liquid helium temperature, allow operation in a compact cryocooled standard, providing a good compromise between device and refrigerator requirements. In this work, the behavior of SNIS devices cooled with a closed-cycle refrigerator has been investigated, both in DC and under RF irradiation. Issues related to thermal design of the apparatus to solve specific problems not faced with liquid coolants, like reduced cooling power and minimization of thermal gradients for uniform operation of the chip are discussed in detail.

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SNIS阵列在制冷机中的操作

避免液氦现在是一个世界性的问题，因此制冷机的操作对于超导电子的更广泛使用变得至关重要。较高的温度操作设备是可取的，以减少冰箱的尺寸和复杂性，但约瑟夫森结阵列与高温超导体制造的电压标准应用是迄今为止不可用的。INRIM开发的SNIS(超导体-正常金属-绝缘体-超导体)结技术基于低温超导体，但能够在远高于液氦温度的条件下运行，允许在紧凑的低温标准下运行，在设备和冰箱要求之间提供了很好的妥协。在这项工作中，研究了SNIS器件在直流和射频辐射下的行为。详细讨论了与设备热设计相关的问题，以解决液体冷却剂不面临的具体问题，如降低冷却功率和最小化热梯度以实现芯片的均匀运行。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

29th Conference on Precision Electromagnetic Measurements (CPEM 2014)

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