Epitaxial Growth of Nano-Sized Pb Islands on SrTiO3 Substrate: Competition Between Electron Correlation and Enhanced Superconductivity

IF 4.4 Q1 OPTICS
Zhibin Shao, Haigen Sun, Yan Cao, Zongyuan Zhang, Shaojian Li, Xin Zhang, Qi Bian, Habakubaho Gedeon, Hui Yuan, Minghu Pan
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Abstract

The discovery of the interface-enhanced superconductivity in the single-layer film of FeSe epitaxially grown on SrTiO3 substrates has triggered a flurry of activity in the field of superconductivity. It raised the hope to find more conventional high transition temperature (Tc) superconductors that are purely driven by the electron-phonon interaction at ambient pressure. Here the epitaxial growth of the Pb nano-sized islands on SrTiO3 (001) substrates with the island volumes ranging from 286 to 4945 nm3 is reported by molecular beam epitaxy, followed by systematic scanning tunneling microscopic/spectroscopic (STM/S) investigation. The observed STS gap for the nanoscale islands highly dependent on the volumes of nano-sized islands, can be divided into three regions. By performing a detailed spectroscopic investigation, it is founded that superconductivity in the volume above 3700 nm3 (Region I) has a zero temperature energy gap (Δ(0)) and Tc of 6.8 meV and 9.8 K obtained by BCS fitting, showing the largely-enhanced Δ and slightly-increased Tc by comparing to the bulk Pb (1.4 meV and 7.2 K). As the volume in the range from 1300 to 3700 nm3 (Region II), a large Coulomb gap induced by electron correlation emerged and shows a volume-dependent behavior, suggesting the reduced size can enhance electron correlation in Pb islands. As the volume decreases down to Region III, enhanced electron correlation and Coulomb gap become more dominant and superconductivity is totally suppressed. The experiment reveals that an electron-electron interaction in nano-sized Pb islands can be significantly enhanced by reducing the island sizes and suppresses the superconductivity, thus demonstrates a competition between superconductivity and electron correlation as the volume varies.

在 SrTiO3 基底上磊晶生长纳米尺寸的铅岛:电子相关性与增强超导性之间的竞争
在 SrTiO3 基底上外延生长的单层 FeSe 薄膜中发现的界面增强超导性,引发了超导领域的一系列活动。人们希望找到更多在环境压力下完全由电子-声子相互作用驱动的传统高转变温度(Tc)超导体。本文报告了通过分子束外延技术在 SrTiO3 (001) 基底上外延生长出的铅纳米级原子岛,原子岛的体积范围为 286 至 4945 nm3,随后进行了系统的扫描隧道显微镜/光谱(STM/S)研究。观察到的纳米级岛屿的 STS 间隙与纳米级岛屿的体积密切相关,可分为三个区域。通过详细的光谱研究发现,3700 nm3 以上体积(区域 I)的超导性具有零温度能隙(Δ(0)),BCS 拟合得到的 Tc 为 6.8 meV 和 9.8 K,与块状铅(1.4 meV 和 7.2 K)相比,Δ 显著增强,Tc 略有提高。当体积在 1300 至 3700 nm3 之间(区域 II)时,电子相关性引起的库仑间隙变大,并表现出与体积相关的行为,这表明体积减小可以增强铅岛中的电子相关性。当体积减小到区域 III 时,增强的电子相关性和库仑间隙变得更加主要,超导性被完全抑制。该实验揭示了纳米尺寸铅岛中的电子-电子相互作用可通过减小铅岛尺寸而显著增强,并抑制超导性,从而证明了超导性和电子相关性之间随着体积变化而产生的竞争关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
7.90
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