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Subwavelength Nanostructuring of Gold Films by Apertureless Scanning Probe Lithography Assisted by a Femtosecond Fiber Laser Oscillator

机译：飞秒光纤激光振荡器辅助无孔扫描探针平版印刷术金膜的亚波长纳米结构

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Optical methods in nanolithography have been traditionally limited by Abbe’s diffraction limit. One method able to overcome this barrier is apertureless scanning probe lithography assisted by laser. This technique has demonstrated surface nanostructuring below the diffraction limit. In this study, we demonstrate how a femtosecond Yb-doped fiber laser oscillator running at high repetition rate of 46 MHz and a pulse duration of 150 fs can serve as the laser source for near-field nanolithography. Subwavelength features were generated on the surface of gold films down to a linewidth of 10 nm. The near-field enhancement in this apertureless scanning probe lithography setup could be determined experimentally for the first time. Simulations were in good agreement with the experiments. This result supports near-field tip-enhancement as the major physical mechanisms responsible for the nanostructuring.

机译：传统上，纳米光刻中的光学方法受到阿贝衍射极限的限制。能够克服这一障碍的一种方法是借助激光辅助的无孔扫描探针光刻。该技术已经证明了低于衍射极限的表面纳米结构。在这项研究中，我们演示了以46 MHz的高重复频率和150 fs的脉冲持续时间运行的飞秒掺Yb光纤激光器如何可以用作近场纳米光刻的激光源。在金膜的表面上产生亚波长特征，线宽为10 nm。这种无孔扫描探针光刻设置中的近场增强可以首次通过实验确定。模拟与实验非常吻合。该结果支持近场尖端增强作为负责纳米结构的主要物理机制。

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期刊名称 Nanomaterials
作者
Ignacio Falcón Casas; Wolfgang Kautek;
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作者单位

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年(卷),期 2018(8),7
年度 2018
页码 536
总页数 12
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
near-field femtosecond laser nanolithography subwavelength tip-enhancement AFM;

机译：近场;飞秒激光;纳米光刻;亚波长;针尖增强;原子力显微镜;
入库时间 2022-08-17 12:25:06

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专利

1. Subwavelength Nanostructuring of Gold Films by Apertureless Scanning Probe Lithography Assisted by a Femtosecond Fiber Laser Oscillator [J] . Ignacio Falcón Casas, Wolfgang Kautek Nanomaterials . 2018,第7期

机译：飞秒光纤激光振荡器辅助的无孔扫描探针光刻技术实现金膜的亚波长纳米结构
2. Scanning Probe Lithography of Dendrite-Like Nanostructures in Ultrathin Diamond-Like Nanocomposite Films [J] . V. D. Frolov, P. A. Pivovarov, E. V. Zavedeev, Nanotechnologies in Russia . 2017,第7a8期

机译：扫描超薄金刚石状纳米复合膜中的树突状纳米结构的探针光刻
3. Fabrication of Ni Nanostructures on p-Si by Scanning Probe Lithography on Si_3N_4 Films and Selective Electrodeposition [J] . Chi-Yuan Lin, Chung-Shun Chang, Forest S. S. Chien Journal of nanoscience and nanotechnology . 2010,第7期

机译：通过Si_3N_4膜上的扫描探针光刻和选择性电沉积在p-Si上制备Ni纳米结构
4. Nanostructuring of semiconductor materials and metallic thin films using femtosecond laser and scanning probe microscope [C] . Anant Chimmalgi, Taeyul Choi, David Hwang, Commercial and Biomedical Applications of Ultrafast Lasers III . 2003

机译：飞秒激光和扫描探针显微镜对半导体材料和金属薄膜进行纳米结构
5. Laser-assisted scanning probe alloying nanolithography (LASPAN) and its application in gold-silicon system. [D] . Peng, Luohan. 2008

机译：激光辅助扫描探针合金纳米平版印刷术（LASPAN）及其在金硅系统中的应用。
6. Nanostructure Formation on Diamond-Like Carbon Films Induced with Few-Cycle Laser Pulses at Low Fluence from a Ti:Sapphire Laser Oscillator [O] . Seiya Nikaido, Takumi Natori, Ryo Saito, 2018

机译：Ti：蓝宝石激光振荡器在低通量下由少周期激光脉冲在类金刚石碳膜上形成纳米结构。
7. Femtosecond Laser Assisted Crystallization of Gold Thin Films [O] . Ayesha Sharif, Nazar Farid, Rajani K. Vijayaraghavan, 2021

机译：Femtosecond激光辅助金薄膜的结晶
8. Scanning Probe Lithography. 1. Scanning Tunneling Microscope-Induced Lithography of Self-Assembled n-Alkanethiol Monolayer Resists. [R] . Ross, C. B., Sun, L., Crooks, R. M. 1993

机译：扫描探针光刻。 1.扫描隧道显微镜诱导的自组装正烷硫醇单层抗蚀剂的光刻。

Subwavelength Nanostructuring of Gold Films by Apertureless Scanning Probe Lithography Assisted by a Femtosecond Fiber Laser Oscillator

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