离子辐照对超导薄膜的影响

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY APL Materials Pub Date : 2024-07-01 DOI:10.1063/5.0202851
Katja Kohopää, Alberto Ronzani, Robab Najafi Jabdaraghi, Arijit Bera, Mário Ribeiro, Dibyendu Hazra, Jorden Senior, Mika Prunnila, Joonas Govenius, Janne S. Lehtinen, Antti Kemppinen
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引用次数: 0

摘要

我们展示了氩或镓离子辐照作为晶圆级后处理方法来增加超导薄膜的无序性。我们研究了几种广泛使用的超导体,包括单元素和化合物。我们的研究表明,离子辐照会增加所有薄膜的正常态电阻率,这有望调整它们的超导特性,例如,使其具有更高的动能电感。我们观察到 Al 和 MoSi 的超导转变温度升高,而 Nb、NbN 和 TiN 的超导转变温度降低。在 MoSi 中,离子辐照也改善了两种材料的混合。我们展示了厚度均匀的无定形和均质 MoSi 薄膜的制备过程,这种薄膜有望用于超导纳米线单光子探测器等。
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Effect of ion irradiation on superconducting thin films
We demonstrate ion irradiation by argon or gallium as a wafer-scale post-processing method to increase disorder in superconducting thin films. We study several widely used superconductors, both single-elements and compounds. We show that ion irradiation increases normal-state resistivity in all our films, which is expected to enable tuning their superconducting properties, for example, toward a higher kinetic inductance. We observe an increase in superconducting transition temperature for Al and MoSi and a decrease for Nb, NbN, and TiN. In MoSi, ion irradiation also improves the mixing of the two materials. We demonstrate the fabrication of an amorphous and homogeneous film of MoSi with uniform thickness, which is promising, for example, for superconducting nanowire single-photon detectors.
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来源期刊
APL Materials
APL Materials NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
9.60
自引率
3.30%
发文量
199
审稿时长
2 months
期刊介绍: APL Materials features original, experimental research on significant topical issues within the field of materials science. In order to highlight research at the forefront of materials science, emphasis is given to the quality and timeliness of the work. The journal considers theory or calculation when the work is particularly timely and relevant to applications. In addition to regular articles, the journal also publishes Special Topics, which report on cutting-edge areas in materials science, such as Perovskite Solar Cells, 2D Materials, and Beyond Lithium Ion Batteries.
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