Unified linear response theory of quantum electronic circuits

IF 6.6 1区 物理与天体物理 Q1 PHYSICS, APPLIED npj Quantum Information Pub Date : 2024-11-09 DOI:10.1038/s41534-024-00907-9
L. Peri, M. Benito, C. J. B. Ford, M. F. Gonzalez-Zalba
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Abstract

Modeling the electrical response of multi-level quantum systems at finite frequency has been typically performed in the context of two incomplete paradigms: (i) input-output theory, which is valid at any frequency but neglects dynamic losses, and (ii) semiclassical theory, which captures dynamic dissipation effects well but is only accurate at low frequencies. Here, we develop a unifying theory, valid for arbitrary frequencies, that captures both the small-signal quantum behavior and the non-unitary effects introduced by relaxation and dephasing. The theory allows a multi-level system to be described by a universal small-signal equivalent-circuit model, a resonant RLC circuit, whose topology only depends on the number of energy levels. We apply our model to a double-quantum-dot charge qubit and a Majorana qubit, showing the capability to continuously describe the systems from adiabatic to resonant and from coherent to incoherent, suggesting new and realistic experiments for improved quantum state readout. Our model will facilitate the design of hybrid quantum–classical circuits and the simulation of qubit control and quantum state readout.

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量子电子电路的统一线性响应理论
对有限频率下多级量子系统的电响应建模通常在两种不完整的范式下进行:(i) 输入-输出理论,该理论在任何频率下都有效,但忽略了动态损耗;(ii) 半经典理论,该理论能很好地捕捉动态耗散效应,但只在低频下准确。在这里,我们提出了一种适用于任意频率的统一理论,它既能捕捉小信号量子行为,又能捕捉弛豫和去相引入的非单元效应。该理论允许用一个通用的小信号等效电路模型(谐振 RLC 电路)来描述多级系统,其拓扑结构只取决于能级的数量。我们将模型应用于双量子点电荷量子比特和马约拉纳量子比特,展示了从绝热到共振、从相干到非相干连续描述系统的能力,为改进量子态读出提出了新的现实实验建议。我们的模型将促进量子-经典混合电路的设计以及量子比特控制和量子态读出的模拟。
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来源期刊
npj Quantum Information
npj Quantum Information Computer Science-Computer Science (miscellaneous)
CiteScore
13.70
自引率
3.90%
发文量
130
审稿时长
29 weeks
期刊介绍: The scope of npj Quantum Information spans across all relevant disciplines, fields, approaches and levels and so considers outstanding work ranging from fundamental research to applications and technologies.
期刊最新文献
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