Exploring the relationship between deposition method, microstructure, and performance of Nb/Si-based superconducting coplanar waveguide resonators

材料科学 微观结构 无定形固体 溅射沉积 高功率脉冲磁控溅射 晶界 溅射 光电子学 二次离子质谱法 薄膜 复合材料 纳米技术 冶金 结晶学 质谱法 物理 量子力学 化学
作者
Jin‐Su Oh,Cameron Kopas,Jayss Marshall,Xiaotian Fang,Kamal R. Joshi,Amlan Datta,Sunil Ghimire,Joong‐Mok Park,Richard H. J. Kim,Daniel Setiawan,Ella Lachman,J. Mutus,Akshay A. Murthy,Anna Grassellino,Alex Romanenko,J. F. Zasadzinski,Jigang Wang,R. Prozorov,Kameshwar Yadavalli,M. J. Kramer
出处
期刊:Acta Materialia [Elsevier BV]
卷期号:276: 120153-120153 被引量:10
标识
DOI:10.1016/j.actamat.2024.120153
摘要

Superconducting quantum circuits (SQC) are one of the most promising hardware platforms for quantum computing, yet their performance is currently limited by the presence of various structural defects inside the circuit's structure. Despite impressive progress in the past decade, a precise understanding of the origin of these defects from various fabrication processes and their impact on coherence is still lacking. In this study, we performed a comprehensive investigation on the microstructure, superconductivity, and resonator quality factor of Nb films deposited by high-power impulse magnetron sputtering (HiPIMS) and direct current (DC) magnetron sputtering. A suite of characterization techniques, including electron microscopy with spectroscopy, secondary ion mass spectrometry, magneto-optical microscopy, and pump-probe reflectivity spectroscopy is used. We reveal that niobium (Nb) resonators fabricated using HiPIMS exhibit a smaller average grain size, thicker surface oxide with larger thickness variations (rougher surface), and a thicker amorphous Nb/Si interface layer compared to samples deposited by DC sputtering. We identified that the amorphous Nb oxides (mainly located at the Nb surface and along the grain boundaries) and Nb-Si amorphous layers (at the Nb/Si interface) are major and potential sources of two-level system (TLS), while off-stochiometric oxides and suboxides of Nb close to the surface, crystalline defects (i.e., dislocations at grain boundary, point defects introduced during deposition) are main contributors of non-TLS sources. Our findings clarify the relationship between different defects and coherence loss mechanisms, highlighting the importance of material microstructure control on performance optimization in SQC.
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