超导电路中的微波光子发射

Q3 Physics and Astronomy Instruments Pub Date : 2023-10-30 DOI:10.3390/instruments7040036

Alessandro D'Elia, Alessio Rettaroli, Fabio Chiarello, Daniele Di Gioacchino, Emanuele Enrico, Luca Fasolo, Carlo Ligi, Giovanni Maccarrone, Federica Mantegazzini, Benno Margesin, Francesco Mattioli, Simone Tocci, Andrea Vinante, Claudio Gatti

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引用次数: 0

摘要

量子计算需要一种新颖的方法来将数据存储为量子态，而不是传统的比特。最有希望的候选者之一是纠缠光子。在本文中，我们展示了三种不同类型的超导电路(SQUID、JPA和JTWPA)在微波频率范围内的光子发射，这些电路通常用作低噪声参数放大器。这些装置可以作为纠缠光子的源来操作。我们报告了用于产生和测量这些电路的微波辐射的实验方案，以及数据模拟。收集的光谱是通过在设备上使用直接射频泵进行单音测量获得的;在低功率(低于- 100 dBm)下的输出光谱可以用动态卡西米尔模型很好地解释，而在高功率(高于- 100 dBm)下，系统可以用三能级原子的奥特勒-汤斯荧光很好地描述。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Microwave Photon Emission in Superconducting Circuits

Quantum computing requires a novel approach to store data as quantum states, opposite to classical bits. One of the most promising candidates is entangled photons. In this manuscript, we show the photon emission in the range of microwave frequencies of three different types of superconducting circuits, a SQUID, a JPA, and a JTWPA, often used as low-noise parametric amplifiers. These devices can be operated as sources of entangled photons. We report the experimental protocol used to produce and measure microwave radiation from these circuits, as well as data simulations. The collected spectra are obtained by performing single-tone measurements with a direct rf pump on the devices; the output spectra at low powers (below −100 dBm) are well interpreted by the dynamical Casimir model, while at high powers (above −100 dBm) the system is well described by the Autler–Townes fluorescence of a three-level atom.

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