Interplay between nonequilibrium quasiparticle relaxation and dynamic supercurrent enhancement in aluminum superconducting constriction junctions

Shung Kang Koh, Pei Yuan Li, Ching Ping Lee, Io Chun Hoi, Yen Hsiang Lin, Chung Yu Mou, Dah Chin Ling, Yung Fu Chen, Cen Shawn Wu, Jeng Chung Chen

研究成果: 雜誌貢獻期刊論文同行評審

摘要

We present a comprehensive study on the nonequilibrium properties of superconducting nanoconstriction junctions in steady-state and time-dependent dynamic regimes. By measuring the current-voltage characteristics of single constriction and micro-superconducting quantum interference devices with nanobridges, we observe a series of distinct voltage-step jumps in the dissipative state, which are associated with the appearance of the excess current. Through detailed analysis, we identify different mechanisms that contribute to the enhancement of superconductivity under varying bias voltages. In the time-dependent dynamic regime where the bias voltage Formula Presented significantly exceeds the superconducting gap voltage Formula Presented, the nanoconstriction behaves as a single phase-slip center (PSC). The voltage steps observed in this regime signify the phase-slipping dynamics at PSC, which effectively mitigates the self-heating effects. Conversely, in the steady-state regime where Formula Presented is lower than the gap voltage, the voltage steps arise from multiple Andreev reflections. We demonstrate that the interplay of Andreev quasiparticles and Josephson supercurrent plays a crucial role in restoring the phase coherence of the dissipation currents. Our findings provide an insightful understanding of nonequilibrium quasiparticle relaxation dynamics in superconducting nanometallic weak links and offer practical implications for potential applications.

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文章編號094512
期刊Physical Review B
108
發行號9
DOIs
出版狀態已出版 - 1 9月 2023

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