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Oscillations In An LC Circuit01:30

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Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform
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使用约瑟夫森交叉阵列进行1 GHz波形合成.

Christine A Donnelly1,2, Nathan E Flowers-Jacobs1, Justus A Brevik1

  • 1National Institute of Standards and Technology (NIST), Boulder, CO 80305 USA.

IEEE transactions on applied superconductivity : a publication of the IEEE Superconductivity Committee
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PubMed
概括
此摘要是机器生成的。

研究人员使用约瑟夫森连接合成了千兆赫兹频率波形,证明了量子锁操作. 这一进步为精确的射频 (RF) 参考源铺平了道路.

关键词:
数字模拟转换的转换.约瑟夫森结点 (JJ) 阵列的阵列测量功率的功率测量方法定量化定量化是什么信号合成信号合成超导装置是一种超导装置.超导集成电路的超导集成电路.

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科学领域:

  • 量子电子学 量子电子学
  • 高频信号的生成高频信号的生成.

背景情况:

  • 约瑟夫森连接提供了一种基于量子的方法,用于精确的信号合成.
  • 现有的千兆赫兹波形生成方法在光谱纯度和功率控制方面存在局限性.

研究的目的:

  • 使用约瑟夫森连接数组合成单色和多色的千兆赫兹波形.
  • 为了证明量子锁定操作和光谱选择性可编程性.
  • 推进基于约瑟夫森任意波形合成器 (JAWS) 的初级射频参考源的开发.

主要方法:

  • 使用一次性元件电路进行初始波形合成 (1-2 GHz).
  • 引入了窄带双电路,以提高功率和光谱纯度.
  • 合成了单调和多调波形,并控制了功率和相位.

主要成果:

  • 对于单调波形,实现了-71dBm的输出功率和-66dBc的虚无动态范围 (SFDR).
  • 使用双倍光学仪,合成了1GHz正弦波在-49dBm,带内SFDR -79dBc.
  • 通过使用多种类型的波形来证明光谱选择性功率和相位可编程性.

结论:

  • 基于量子脉冲的合成技术不是光谱纯度的限制因素.
  • 室温电子目前限制了光谱纯度,表明了未来电路设计改进的领域.
  • 对于可编程,量子引用,低扭曲的千兆赫兹信号,基于JAWS的主要射频参考源已经取得了显著进展.