\begin{document}$ 2\Delta (0)/{k_{\rm{B}}}{T_{\rm{C}}}$\end{document} is about 4.94 with the superconducting gap \begin{document}$ \varDelta (0) = 1.66$\end{document} meV at 0 K, indicating that the Pb1–xBix alloy is a strongly-coupled superconductor. The non-superconducting Bi(111) and the superconducting Pb1–xBix alloy domains form an in-plane superconductor-normal metal-superconductor (S-N-S) Josephson junction. The proximity effect in the Bi(111) domains is measured at different N-S junctions, which suggests that the lateral superconducting penetration length in Bi(111) might be affected by the area of the quasi-two-dimensional interface. The superconducting gap in the Bi(111) region with a narrow width of 23 nm in an S-N-S Josephson junction is found to be greatly enhanced due to the existence of multiple Andreev reflections. Since Bi can host potential topological properties, the lateral Bi(111)-Pb1–xBix heterostructures, because of the existing proximity effect, could have potential applications in exploring the novel topological and superconducting phenomena."> - 必威体育下载

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Tian Ming-Yang, Wang Ju-Feng, Du Hong-Jian, Ma Chuan-Xu, Wang Bing
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  • Abstract views:5956
  • PDF Downloads:173
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Publishing process
  • Received Date:12 March 2021
  • Accepted Date:10 April 2021
  • Available Online:07 June 2021
  • Published Online:05 September 2021

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