高功率脉冲磁控溅射
氮化铌
材料科学
溅射沉积
铌
氮化物
氧化铌
超导电性
薄膜
光电子学
脉冲(物理)
腔磁控管
溅射
复合材料
纳米技术
凝聚态物理
冶金
图层(电子)
物理
量子力学
作者
Hudson T. Horne,Collin M. Hugo,Brandon C Reid,Daniel F. Santavicca
标识
DOI:10.1088/1361-6668/ad921a
摘要
Abstract We report a systematic comparison of niobium nitride thin films deposited on oxidized silicon substrates by reactive DC magnetron sputtering and reactive high-power impulse magnetron sputtering (HiPIMS). After determining the nitrogen gas concentration that produces the highest superconducting critical temperature for each process, we characterize the dependence of the critical temperature on film thickness. The optimal nitrogen concentration is higher for HiPIMS than for DC sputtering, and HiPIMS produces higher critical temperatures for all thicknesses studied. We attribute this to the HiPIMS process enabling the films to get closer to optimal stoichiometry before beginning to form a hexagonal crystal phase that reduces the critical temperature, along with the extra kinetic energy in the HiPIMS process improving crystallinity. We also study the ability to increase the critical temperature of the HiPIMS films through the use of an aluminum nitride buffer layer and substrate heating.
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