G. Liu, A. Lingenfelter, V.R. Joshi, N.E. Frattini, V.V. Sivak, S. Shankar, M.H. Devoret
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引用次数: 0
Abstract
We present a way to achieve fully directional, quantum-limited phase-preserving amplification in a four-port, four-mode superconducting Josephson circuit by utilizing interference between six parametric processes that couple all four modes. Full directionality, defined as the reverse isolation surpassing forward gain between the matched input and output ports of the amplifier, ensures its robustness against impedance mismatch that might be present at its output port during applications. Unlike existing directional phase-preserving amplifiers, both the minimal backaction and the quantum-limited added noise of this amplifier remains unaffected by noise incident on its output port. In addition, the matched input and output ports allow direct on-chip integration of these amplifiers with other circuit QED components, facilitating scaling up of superconducting quantum processors.
我们提出了一种在四端口、四模式超导约瑟夫森电路中实现全定向、量子限相保留放大的方法,即利用耦合所有四种模式的六个参量过程之间的干扰。全方向性是指放大器匹配的输入和输出端口之间的反向隔离度超过正向增益,这确保了放大器在应用过程中能够抵御输出端口可能存在的阻抗失配。与现有的定向保相放大器不同,该放大器的最小反向作用和量子限制附加噪声均不受输出端口噪声的影响。此外,匹配的输入和输出端口允许这些放大器与其他电路 QED 组件直接进行片上集成,从而促进了超导量子处理器的扩展。
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Physical Review Applied (PRApplied) publishes high-quality papers that bridge the gap between engineering and physics, and between current and future technologies. PRApplied welcomes papers from both the engineering and physics communities, in academia and industry.
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