Effect of nitrogen content on the structure and superconductivity of reactive sputtered NbTiN thin films

Superconductor Science and Technology Pub Date : 2024-08-11 DOI:10.1088/1361-6668/ad6adc

L Zhang, Y L Zhong, J J Xie, H Jin, W B Zhao, W Peng, L Chen and Z Wang

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Abstract

In this research, we have studied the structural and electrical properties of NbTiN films deposited on MgO and SiO2/Si substrates by reactive dc sputtering. The formation of stoichiometric NbTiN is very sensitive to N concentration and can be easily adjusted by changing the discharge current and Ar: N2 ratio along the current–voltage curves (IVCs) of the NbTi target. Excessive or insufficient N concentration in NbTiN leads to sublattice expansion or distortion, resulting in a decrease in critical temperature Tc. At Ar: N2 ratio of 30:4 and discharge current of 2.2 A, Tc as high as 15.8 K and 15.3 K has been obtained for 200 nm thick NbTiN/MgO and NbTiN/SiO2/Si samples, respectively. In addition, the critical density Jc of the 4 μm-wide and 7 nm-thick NbTiN film grown on MgO substrate at 2 K reaches 19.2 MA cm−2, which is approximately twice as high as the 10.9 MA cm−2 of the same-sized NbTiN film grown on SiO2/Si substrate. Therefore, by further fine-tuning the N concentration in combination with the IVCs of the target, high-quality stoichiometric NbTiN can be obtained.

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氮含量对反应溅射氮化铌钛薄膜结构和超导性的影响

在这项研究中，我们研究了通过反应直流溅射沉积在氧化镁和二氧化硅/硅基底上的铌钛氮薄膜的结构和电气特性。化学计量铌钛氮的形成对 N 浓度非常敏感，可以通过改变放电电流和 Ar：通过沿 NbTi 靶材的电流-电压曲线 (IVC) 改变放电电流和 Ar：N2 比率，可以很容易地调整 NbTiN 的形成。NbTiN 中的 N 浓度过高或过低都会导致亚晶格膨胀或变形，从而降低临界温度 Tc。在 Ar：在 Ar：N2 比率为 30：4 和放电电流为 2.2 A 的条件下，200 nm 厚的 NbTiN/MgO 和 NbTiN/SiO2/Si 样品的临界温度分别高达 15.8 K 和 15.3 K。此外，在 2 K 下，生长在氧化镁衬底上的 4 μm 宽、7 nm 厚的铌钛氮薄膜的临界密度 Jc 达到 19.2 MA cm-2，约为生长在 SiO2/Si 衬底上的相同尺寸铌钛氮薄膜的 10.9 MA cm-2 的两倍。因此，通过结合靶材的 IVC 进一步微调氮浓度，可以获得高质量的化学计量铌钛氮。

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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Superconductor Science and Technology

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