超导纳米线单光子探测器铝反射镜生长条件的优化

Materials for Quantum Technology Pub Date : 2023-05-29 DOI:10.1088/2633-4356/ace490

R. Flaschmann, C. Schmid, L. Zugliani, S. Strohauer, F. Wietschorke, Stefanie Grotowski, B. Jonas, M. Müller, M. Althammer, R. Gross, J. Finley, Kai-Oliver Mueller

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摘要

我们研究了薄(≤200 nm)溅射铝(Al)薄膜的生长条件。这些涂层用于各种应用，例如航空航天工业的先进制造工艺或量子器件的纳米结构。获得高质量、低粗糙度的薄膜，需要对沉积工艺进行精确优化。为此，我们调整了各种溅射参数，如沉积速率、温度和功率，使50 nm薄膜具有小于1 nm的均方根(RMS)粗糙度和高反射率。最后，我们通过将超导单光子探测器集成到由铝镜和二氧化硅介电间隔片组成的多层异质结构中，证实了沉积薄膜的高质量。通过这种集成方法，我们将780 nm的检测效率从40%提高到70%。

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Optimizing the growth conditions of Al mirrors for superconducting nanowire single-photon detectors

We investigate the growth conditions for thin (≤ 200 nm) sputtered aluminum (Al) films. These coatings are needed for various applications, e.g. for advanced manufacturing processes in the aerospace industry or for nanostructures for quantum devices. Obtaining high-quality films, with low roughness, requires precise optimization of the deposition process. To this end, we tune various sputtering parameters such as the deposition rate, temperature and power, which enables 50 nm thin films with a root mean square (RMS) roughness of less than 1 nm and high reflectivity. Finally, we confirm the high quality of the deposited films by realizing superconducting single-photon detectors integrated into multi-layer heterostructures consisting of an aluminum mirror and a silicon dioxide dielectric spacer. We achieve an improvement in detection efficiency at 780 nm from 40 % to 70 % by this integration approach.

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Materials for Quantum Technology

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