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

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

doi:10.1038/s41467-024-53600-y

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

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

Research output: Contribution to journal › Article › peer-review

Abstract

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 confirm 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.

Original language	English
Article number	9326
Number of pages	6
Journal	Nature Communications
Volume	15
DOIs	https://doi.org/10.1038/s41467-024-53600-y
Publication status	Published - 29 Oct 2024

Keywords

Nanoscale devices,
Quantum metrology

Access to Document

10.1038/s41467-024-53600-yLicence: CC BY

Cite this

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

abstract = "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 confirm 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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T1 - Quantized current steps due to the synchronization of microwaves with Bloch oscillations in small Josephson junctions

AU - Shaikhaidarov, Rais S.

AU - Kim, Kyung Ho

AU - Dunstan, Jacob

AU - Antonov, Ilya

AU - Golubev, Dmitry

AU - Antonov, Vladimir N.

AU - Astafiev, Oleg V.

PY - 2024/10/29

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AB - 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 confirm 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.

KW - Nanoscale devices,

KW - Quantum metrology

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