Microscopic charging and in-gap states in superconducting granular aluminum

Fang Yang; Thomas Gozlinski; Tim Storbeck; Lukas Gruenhaupt; Ioan M. Pop; Wulf Wulfhekel

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Microscopic charging and in-gap states in superconducting granular aluminum

机译：超导颗粒铝中的微观充电和间隙中的间隙状态

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We present scanning tunneling microscope (STM) measurements of the local electronic structure of superconducting granular aluminium films. The STM spectra show a homogeneously increased superconducting gap compared to that of aluminum, both near and above the Mott resistivity ρ_M ≈ 400μΩ cm. Above ρ_M we find Coulomb charging effects, a first indication of electrical decoupling, and in-gap states on individual grains, which could contribute to flux noise and dielectric loss in quantum devices. We also observe multiple low-energy states outside the gap. which indicate bosonic excitations of an energy below twice the superconducting gap.

机译：我们呈现扫描隧道显微镜（STM）测量超导颗粒铝膜的局部电子结构。与铝相比，STM光谱显示均匀地增加超导间隙，邻近莫特电阻率ρ_m≈400μΩcm。高于ρ_M我们发现库仑充电效果，第一指示电脱耦，各个颗粒上的间隙状态，这可能有助于量子装置的磁通噪声和介电损耗。我们还观察到差距之外的多个低能量状态。这表明能量低于超导间隙的两倍的能量激发。

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《Physical review.B.Condensed matter and materials physics》 |2020年第10期|104502.1-104502.7|共7页
作者
Fang Yang; Thomas Gozlinski; Tim Storbeck; Lukas Gruenhaupt; Ioan M. Pop; Wulf Wulfhekel;
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Institute for Nanoelectronic Devices and Quantum Computing Fudan University 200438 Shanghai China Physikalisches Institut Karlsruhe Institute of Technology 76131 Karlsruhe Germany;

Physikalisches Institut Karlsruhe Institute of Technology 76131 Karlsruhe Germany;

Physikalisches Institut Karlsruhe Institute of Technology 76131 Karlsruhe Germany;

Physikalisches Institut Karlsruhe Institute of Technology 76131 Karlsruhe Germany;

Physikalisches Institut Karlsruhe Institute of Technology 76131 Karlsruhe Germany Institute of Quantum Materials and Technologies Karlsruhe Institute of Technology 76344 Eggenstein-Leopoldshafen Germany;

Physikalisches Institut Karlsruhe Institute of Technology 76131 Karlsruhe Germany Institute of Quantum Materials and Technologies Karlsruhe Institute of Technology 76344 Eggenstein-Leopoldshafen Germany;

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Microscopic charging and in-gap states in superconducting granular aluminum

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