Sub-picosecond measurement of time intervals using single flux quantum electronics

Rosenthal P.A.

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Sub-picosecond measurement of time intervals using single flux quantum electronics

机译：使用单通量量子电子设备对时间间隔进行亚皮秒级测量

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A single-flux-quantum (SFQ) pulse coincidence detector based on resistively shunted nonhysteretic Josephson junctions was designed and simulated. The coincidence detector generates an SFQ pulse when the delay between the arrival of SFQ pulses at its two inputs is less than the coincidence threshold. Simulations indicate that the minimum coincidence threshold time can be as short as 400+or-200 fs, assuming Josephson junction characteristic voltages of 1 mV, overdamped dynamics, and 4.2 K operating temperatures. Circuit architectures exploiting this gate are suggested. Estimates of the effects of thermal noise on resolution are presented, indicating the potential for various time-domain measurements with subpicosecond resolution.

机译：设计并仿真了基于电阻分流的非滞后约瑟夫森结的单通量量子（SFQ）脉冲符合检测器。当SFQ脉冲到达两个输入端之间的延迟小于符合阈值时，符合检测器将生成SFQ脉冲。仿真表明，假设约瑟夫森结特性电压为1 mV，动态阻尼过大和4.2 K工作温度，则最小重合阈值时间可短至400+或-200 fs。建议利用该门的电路架构。给出了热噪声对分辨率的影响的估计，表明了亚皮秒分辨率下各种时域测量的潜力。

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《IEEE Transactions on Applied Superconductivity》 |1993年第1期|P.2645-2648|共4页
作者
Rosenthal P.A.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料;半导体技术;
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Sub-picosecond measurement of time intervals using single flux quantum electronics

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