Physical origin of nanograting formation on fused silica with femtosecond pulses

Liang Feng; Vallee Real

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Physical origin of nanograting formation on fused silica with femtosecond pulses

机译：飞秒脉冲在熔融石英上形成纳米光栅的物理原因

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We present a comprehensive analysis of physical evolution of nanograting formation based on an experiment performed with femtosecond pulses focused under moderate focusing conditions and where pulse energy is slowly increased as the focused beam is moved along the sample surface. The results demonstrate that nanograting inscription is initiated at the location of the maximum plasma density and evolves through local intensity side lobes, whose locations are self-regulated in a closed feedback loop, in agreement with the plasmonic model.

机译：我们基于在中等聚焦条件下聚焦的飞秒脉冲进行的实验，对纳米光栅形成的物理演化进行了全面的分析，其中随着聚焦光束沿样品表面移动，脉冲能量缓慢增加。结果表明，纳米光栅铭文始于最大等离子体密度的位置，并通过局部强度的旁瓣演变，该旁瓣的位置在等离子体反馈模型的控制下在封闭的反馈回路中自我调节。

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来源
《Applied Physics Letters》 |2014年第13期|1-4|共4页
作者
Liang Feng; Vallee Real;
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作者单位

Centre d'Optique, Photonique et Laser (COPL), Université Laval, Québec, Québec G1V 0A6, Canada;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-17 13:10:29

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1. Physical origin of nanograting formation on fused silica with femtosecond pulses [J] . Feng Liang, Real Vallee Applied Physics Letters . 2014,第13期

机译：飞秒脉冲在熔融石英上形成纳米光栅的物理原因
2. Formation of nanograting in fused silica by temporally delayed femtosecond double-pulse irradiation [J] . Wang Haodong, Song Juan, Li Qin, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2018,第15期

机译：通过时间延迟飞秒双脉冲辐射形成融合二氧化硅中纳入的纳入
3. Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica [J] . C. Hnatovsky, R. S. Taylor, P. P. Rajeev, Applied Physics Letters . 2005,第1期

机译：飞秒激光在熔融石英中制造的纳米光栅的脉冲持续时间依赖性
4. Enhanced formation of nanogratings inside fused silica due to the generation of self-trapped excitons induced by femtosecond laser pulses [C] . Sören Richter, Fei Jia, Matthias Heinrich, Frontiers in ultrafast optics: biomedical, scientific, and industrial applications XII. . 2012

机译：飞秒激光脉冲引起的自陷激子的产生，增强了熔融石英内部纳米光栅的形成
5. Inhomogeneities and Devitrification in Fused Glass Specimens Fabricated by Pulsed Electric Current Sintering of Fumed Silica Nanoparticles [D] . Cormack, Fiona Ruth. 2018

机译：由脉冲二氧化硅纳米粒子的脉冲电流烧结制造的熔融电流烧结制造的熔融玻璃标本中的不均匀性和缺乏
6. Localized waveguide formation in germanosilicate fiber transmitting femtosecond IR pulses [O] . Haohua Tu, Yee Lin Koh, Daniel L. Marks, -1

机译：飞秒红外脉冲传输的锗硅酸盐纤维中的局部波导形成
7. Transient reflectivity and transmission changes during plasma formation and ablation in fused silica induced by femtosecond laser pulses [O] . Puerto D., Gawelda W., Siegel Jan, 2012

机译：飞秒激光脉冲在熔融石英中等离子体形成和烧蚀过程中的瞬态反射率和透射率变化
8. Waveguide Fabrication in Fused Silica using Tightly Focused Femtosecond Laser Pulses [R] . Chan, J. W., Huser, T. R., Risbud, S. H., 2002

机译：使用紧密聚焦的飞秒激光脉冲在熔融石英中制造波导

Physical origin of nanograting formation on fused silica with femtosecond pulses

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