小型约瑟夫森结中微波与布洛赫振荡同步产生的量化电流阶跃

arXiv - PHYS - Superconductivity Pub Date : 2024-09-09 DOI:arxiv-2409.05707

Rais S. Shaikhaidarov, Kyung Ho Kim, Jacob Dunstan, Ilya Antonov, Dmitry Golubev, Vladimir N Antonov, Oleg V Astafiev

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摘要

在微波辐射下，小型约瑟夫森结（JJs）中布洛赫振荡的同步化会导致电流量子化，这被认为是与夏皮罗阶跃的出现具有双重性的效应。最近，这种电流量子化现象在超导纳米线的紧凑型高阻抗环境中得到了证实。直接观察 JJ 中的电流量子化将证实布洛赫振荡与微波的同步性，并有助于实现计量电流标准。在此，我们将 JJ 置于高阻抗环境中，并演示了频率高达 24 GHz（I=7.7 nA）的双重夏皮罗阶跃。然而，电流量化仅存在于 JJ 参数的狭窄范围内。我们开展了一项系统研究，通过引用存在热噪声的 JJ 模型来解释这一现象。研究结果对基础物理学和量子计量学的应用具有重要意义。

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Quantized current steps due to the synchronization of microwaves with Bloch oscillations in small Josephson junctions

Synchronization of Bloch oscillations in small Josephson junctions (JJs) under microwave radiation, which leads to current quantization, has been proposed as an effect that is dual to the appearance of Shapiro steps. This current quantization was recently demonstrated in superconducting nanowires in a compact high-impedance environment. Direct observation of current quantization in JJs would cofirm the synchronization of Bloch oscillations with microwaves and help with the realisation of the metrological current standard. Here, we place JJs in a high-impedance environment and demonstrate dual Shapiro steps for frequencies up to 24 GHz (I=7.7 nA). Current quantization exists, however, only in a narrow range of JJ parameters. We carry out a systematic study to explain this by invoking the model of a JJ in the presence of thermal noise. The findings are important for fundamental physics and application in quantum metrology.

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arXiv - PHYS - Superconductivity

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