Microwave resonant activation in hybrid single-gap/two-gap Josephson tunnel junctions

Steven Carabello; Joseph G. Lambert; Jerome Mlack; Wenqing Dai; Qi Li; Ke Chen; Daniel Cunnane; X. X. Xi; Roberto C. Ramos

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Microwave resonant activation in hybrid single-gap/two-gap Josephson tunnel junctions

机译：混合单间隙/两间隙约瑟夫森隧道结中的微波共振激活

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摘要

Microwave resonant activation is a powerful, straightforward technique to study classical and quantum systems, experimentally realized in Josephson junction devices cooled to very low temperatures. These devices typically consist of two single-gap superconductors separated by a weak link. We report the results of the first resonant activation experiments on hybrid thin film Josephson junctions consisting of a multi-gap superconductor (MgB_2) and a single-gap superconductor (Pb or Sn). We can interpret the plasma frequency in terms of theories both for conventional and hybrid junctions. Using these models, we determine the junction parameters including critical current, resistance, and capacitance and find moderately high quality factors of Q_0 ~ 100 for these junctions.

机译：微波共振激活是研究经典和量子系统的一种强大而直接的技术，它是在冷却至极低温度的约瑟夫森结装置中通过实验实现的。这些设备通常由被弱连接隔开的两个单间隙超导体组成。我们报告了由多间隙超导体（MgB_2）和单间隙超导体（Pb或Sn）组成的混合薄膜约瑟夫森结的首次共振激活实验的结果。我们可以根据常规和混合结的理论来解释等离子体频率。使用这些模型，我们确定结点参数，包括临界电流，电阻和电容，并找到这些结点的Q_0〜100的中等高质量因子。

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来源
《Journal of Applied Physics》 |2016年第12期|123904.1-123904.6|共6页
作者
Steven Carabello; Joseph G. Lambert; Jerome Mlack; Wenqing Dai; Qi Li; Ke Chen; Daniel Cunnane; X. X. Xi; Roberto C. Ramos;
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Penn State Harrisburg, Middletown, Pennsylvania 17057, USA;

Drexel University, Philadelphia, Pennsylvania 19104, USA;

Drexel University, Philadelphia, Pennsylvania 19104, USA;

The Pennsylvania State University, University Park, Pennsylvania 16802, USA;

The Pennsylvania State University, University Park, Pennsylvania 16802, USA;

Temple University, Philadelphia, Pennsylvania 19122, USA;

Temple University, Philadelphia, Pennsylvania 19122, USA;

Temple University, Philadelphia, Pennsylvania 19122, USA;

University of the Sciences, Philadelphia, Pennsylvania 19104, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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专利

1. TUNNELING AND RESONANT TUNNELING OF FLUXONS IN A LONG JOSEPHSON JUNCTION [J] . Shnirman A., Malomed B., Benjacob E. Physical Review, B. Condensed Matter . 1997,第22期

机译：长约瑟夫逊结中的通量隧道和共振隧道
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机译：微波诱导的直流准粒子隧穿电流测量约瑟夫森隧道结的电容
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机译：约瑟夫森结中宏观量子隧穿的共振增强：相干两能级系统的影响
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机译：零电压状态寿命和Fiske自谐振阶跃表征约瑟夫森隧道结
5. Fluxon dynamics in two-gap superconductor-based long Josephson junction [D] . Ghimire, Bal Ram 2012

机译：基于两间隙超导体的长约瑟夫森结中的通量动力学
6. Microwave photon detection by an Al Josephson junction [O] . Leonid S Revin, Andrey L Pankratov, Anna V Gordeeva, 2020

机译：通过AL Josephson Junction检测微波光子检测
7. Microscopic Calculation of Josephson Current in Tunnel Junctions with Two-Gap Superconductors [O] . A. M. Shutovskyi, A. V. Svidzinskyi, V. E. Sakhnyuk, 2018

机译：双间隙超导体隧道交叉路口中的Josephson电流的显微镜计算
8. Resonant Activation of a Josephson Junction [R] . Devoret, M. H., Martinis, J. M., Esteve, D., 1984

机译：约瑟夫森结的共振激活

Microwave resonant activation in hybrid single-gap/two-gap Josephson tunnel junctions

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