通过正常隧穿和约瑟夫森隧穿探测阿尔法镓在原子尺度上的超导性

arXiv - PHYS - Superconductivity Pub Date : 2024-09-09 DOI:arxiv-2409.05758

C. Fohn, D. Wander, D. Nikolic, S. Garaudée, H. Courtois, W. Belzig, C. Chapelier, V. Renard, C. B. Winkelmann

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引用次数: 0

摘要

我们利用扫描隧道显微镜和光谱学研究了温度低至约 100 mK 的 $\alpha$ 相超导镓。使用超导和正常针尖进行的高分辨率隧道光谱分析表明，超导α-镓是由巴丁-库珀-施里弗理论精确描述的，在α-镓（112）面上的间隙为163μν，整个表面的光谱高度均匀，包括原子缺陷和阶梯边缘。利用超导铅尖端，我们进一步研究了尖端与样品之间形成的约瑟夫森结的低偏导特征。这些特征被动力学库仑封锁理论准确地描述出来，突出了$α-$Ga作为介观超导表面科学研究平台的可能性。

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Superconductivity of alpha-gallium probed on the atomic scale by normal and Josephson tunneling

We investigate superconducting gallium in its $\alpha$ phase using scanning tunneling microscopy and spectroscopy at temperatures down to about 100 mK. High-resolution tunneling spectroscopies using both superconducting and normal tips show that superconducting $\alpha$-Ga is accurately described by Bardeen-Cooper-Schrieffer theory, with a gap $\Delta_{\rm Ga}$ = 163 $\mu$eV on the $\alpha-$Ga(112) facet, with highly homogeneous spectra over the surface, including atomic defects and step edges. Using a superconducting Pb tip, we furthermore study the low-bias conductance features of the Josephson junction formed between tip and sample. The features are accurately described by dynamical Coulomb blockade theory, highlighting $\alpha-$Ga as a possible platform for surface science studies of mesoscopic superconductivity.

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arXiv - PHYS - Superconductivity

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