Fabrication and surface treatment of electron-beam evaporated niobium for low-loss coplanar waveguide resonators

D. Kowsari; K. Zheng; J.T. Monroe; N. J. Thobaben; X. Du; P. M. Harrington; E. A. Henriksen; D. S. Wisbey; K. W. Murch

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Fabrication and surface treatment of electron-beam evaporated niobium for low-loss coplanar waveguide resonators

机译：用于低损耗共面波导谐振器的电子束蒸发铌的制造和表面处理

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We characterize low-loss electron-beam evaporated niobium thin films deposited under ultra-high vacuum conditions. Slow deposition yields films with a high superconducting transition temperature (9.20±0.06K) as well as a residual resistivity ratio of 4.8. We fabricate the films into coplanar waveguide resonators to extract the intrinsic loss due to the presence of two-level-system fluctuators using microwave measurements. For a coplanar waveguide resonator gap of 2 μm, the films exhibit filling-factor-adjusted two-level-system loss tangents as low as 1.5 × 10~(-7) with single-photon regime internal quality factors in excess of one million after removing native surface oxides of the niobium.

机译：我们表征了在超高真空条件下沉积的低损耗电子束蒸发的铌膜薄膜。慢沉积产生具有高超导转变温度（9.20±0.06K）的膜以及4.8的残余电阻率比。我们将薄膜制成共面波导谐振器，以提取由于使用微波测量的两级系统波动因子而导致的内在损耗。对于2μm的共面波导谐振器间隙，薄膜表现出填充因子调整后的两级系统损耗切线，低至1.5×10〜（-7），单光子制度内部质量因子以后超过一百万去除铌的原生表面氧化物。

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《Applied Physics Letters》 |2021年第13期|132601.1-132601.6|共6页
作者
D. Kowsari; K. Zheng; J.T. Monroe; N. J. Thobaben; X. Du; P. M. Harrington; E. A. Henriksen; D. S. Wisbey; K. W. Murch;
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Department of Physics Washington University Saint Louis Missouri 63130 USA;

Department of Physics Washington University Saint Louis Missouri 63130 USA;

Department of Physics Washington University Saint Louis Missouri 63130 USA;

Department of Physics Saint Louis University Saint Louis Missouri 63103 USA;

Department of Physics Washington University Saint Louis Missouri 63130 USA;

Department of Physics Washington University Saint Louis Missouri 63130 USA Research Laboratory of Electronics Massachusetts Institute of Technology Cambridge Massachusetts 02139 USA;

Department of Physics Washington University Saint Louis Missouri 63130 USA Institute for Materials Science and Engineering Washington University Saint Louis Missouri 63130 USA;

Department of Physics Saint Louis University Saint Louis Missouri 63103 USA;

Department of Physics Washington University Saint Louis Missouri 63130 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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Fabrication and surface treatment of electron-beam evaporated niobium for low-loss coplanar waveguide resonators

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