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Subwavelength ripples adjustment based on electron dynamics control by using shaped ultrafast laser pulse trains

机译：亚波长波纹调整基于利用成形的电子动力学控制超快激光脉冲序列

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摘要

This study reveals that the periods, ablation areas and orientations of periodic surface structures (ripples) in fused silica can be adjusted by using designed femtosecond (fs) laser pulse trains to control transient localized electron dynamics and corresponding material properties. By increasing the pulse delays from 0 to 100fs, the ripple periods are changed from ~550nm to ~255nm and the orientation is rotated by 90°. The nearwavelength/subwavelength ripple periods are close to the fundamental/second-harmonic wavelengths in fused silica respectively. The subsequent subpulse of the train significantly impacts free electron distributions generated by the previous subpulse(s), which might influence the formation mechanism of ripples and the surface morphology.

机译：这项研究表明，可以通过使用设计的飞秒（fs）激光脉冲序列来控制瞬态局部电子动力学和相应的材料特性，来调整熔融石英中周期性表面结构（波纹）的周期，烧蚀面积和方向。通过将脉冲延迟从0增加到100fs，纹波周期从〜550nm更改为〜255nm，方向旋转了90°。近波长/亚波长波纹周期分别接近熔融石英中的基波/次谐波波长。序列的后续子脉冲会显着影响由先前子脉冲产生的自由电子分布，这可能会影响波纹的形成机理和表面形态。

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Jiang, Lan; Shi, Xuesong; Li, Xin; Yuan, Yanping; Wang, Cong; Lu, Yongfeng;
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年度 2012
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1. Adjustment of ablation shapes and subwavelength ripples based on electron dynamics control by designing femtosecond laser pulse trains [J] . Yuan Yanping, Jiang Lan, Li Xin, Journal of Applied Physics . 2012,第10期

机译：通过设计飞秒激光脉冲序列，基于电子动力学控制来调整烧蚀形状和亚波长波纹
2. Adjustment of ablation shapes and subwavelength ripples based on electron dynamics control by designing femtosecond laser pulse trains [J] . Yanping Yuan, Lan Jiang, Xin Li, Journal of Applied Physics . 2012,第10期

机译：通过设计飞秒激光脉冲序列，基于电子动力学控制来调整烧蚀形状和亚波长波纹
3. Simulation of rippled structure adjustments based on localized transient electron dynamics control by femtosecond laser pulse trains [J] . Yanping Yuan, Lan Jiang, Xin Li, Applied Physics . 2013,第3期

机译：飞秒激光脉冲序列基于局部瞬态电子动力学控制的波纹结构调整仿真
4. Control of surface ablation on fused silica with ultrafast laser double-pulse based on seed electrons dynamics control [C] . K. H. Zhang, X. Li, W. L. Rong, Conference on Applied Optics and Photonics China . 2015

机译：基于种子电子动力学控制的超快激光双脉冲控制熔融石英表面烧蚀
5. Observation and control of intramolecular dynamics of gas-phase molecules by ultrafast laser pulses. [D] . Pastirk, Igor. 2002

机译：通过超快激光脉冲观察和控制气相分子的分子内动力学。
6. Towards ultrafast dynamics with split-pulse X-ray photon correlation spectroscopy at free electron laser sources [O] . W. Roseker, S. O. Hruszkewycz, F. Lehmkühler, -1

机译：利用自由电子激光源的裂隙X射线光子相关光谱技术实现超快动力学
7. Adjustment of Subwavelength Rippled Structures on Titanium by Two-Step Fabrication Using Femtosecond Laser Pulses [O] . Yanping Yuan, Xinyang Guo, Yitong Shang, 2021

机译：采用飞秒激光脉冲通过两步制造调节钛的亚峰纹结构
8. Molecular systems for ultrafast optical switching: Controlling electron transfer reactions with femtosecond laser pulses [R] . Greenfield, Gosztola, D J, Wasielewski, M R 1994

机译：用于超快光学切换的分子系统：用飞秒激光脉冲控制电子转移反应

Subwavelength ripples adjustment based on electron dynamics control by using shaped ultrafast laser pulse trains

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