High-throughput rear-surface drilling of microchannels in glass based on electron dynamics control using femtosecond pulse trains

Lan Jiang; Pengjun Liu; Xueliang Yan; Ni Leng; Chuancai Xu; Hai Xiao; Yongfeng Lu

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High-throughput rear-surface drilling of microchannels in glass based on electron dynamics control using femtosecond pulse trains

机译：基于飞秒脉冲序列的电子动力学控制，在玻璃中微通道的高通量背面钻孔

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This study proposes a rear-surface ablation enhancement approach to fabricate high-aspect-ratio microchannels by temporally shaping femtosecond laser pulse trains. In the case study of K9 glass, enhancements of up to a 56 times higher material removal rate and a three times greater maximum drilling depth are obtained by the proposed method, as compared with conventional femtosecond laser drilling at the same processing parameters. The improvements are due to the changes of photon-electron interactions by shaping femtosecond pulse train, which can effectively adjust the photon absorption and localized transient material properties by changing electron dynamics such as free electron densities.

机译：这项研究提出了一种后表面消融增强方法，通过对飞秒激光脉冲序列进行时间整形来制造高纵横比的微通道。在K9玻璃的案例研究中，与在相同加工参数下的传统飞秒激光钻孔相比，所提方法可将材料去除率提高多达56倍，最大钻孔深度提高了三倍。改进归因于通过整形飞秒脉冲序列来改变光子-电子相互作用，它可以通过改变电子动力学（例如自由电子密度）来有效地调整光子吸收和局部瞬态材料特性。

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《Optics Letters》 |2012年第14期|共3页
作者
Lan Jiang; Pengjun Liu; Xueliang Yan; Ni Leng; Chuancai Xu; Hai Xiao; Yongfeng Lu;
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1. High-throughput rear-surface drilling of microchannels in glass based on electron dynamics control using femtosecond pulse trains [J] . Lan Jiang, Pengjun Liu, Xueliang Yan, Optics Letters . 2012,第14期

机译：基于飞秒脉冲序列的电子动力学控制，在玻璃中微通道的高通量背面钻孔
2. 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
3. Selective triggering of phase change in dielectrics by femtosecond pulse trains based on electron dynamics control [J] . Xu Chuan-Cai, Jiang Lan, Leng Ni, 中国物理：英文版 . 2013,第004期

机译：飞秒脉冲序列基于电子动力学控制的电介质相变选择性触发
4. Femtosecond laser microchannels fabrication based on electrons dynamics control using temporally or spatially shaped pulses [C] . Yan Xueliang, Hu Jie, Li Xiaowei, High-power lasers and applications VII . 2014

机译：飞秒激光微通道制造，基于使用时间或空间成形脉冲的电子动力学控制
5. From few-cycle femtosecond pulse to single attosecond pulse-controlling and tracking electron dynamics with attosecond precision [D] . Wang, He 2010

机译：从几个周期的飞秒脉冲到单个阿秒脉冲控制和以阿秒精度跟踪电子动力学
6. Controllable high-throughput high-quality femtosecond laser-enhanced chemical etching by temporal pulse shaping based on electron density control [O] . Mengjiao Zhao, Jie Hu, Lan Jiang, -1

机译：基于电子密度控制的时间脉冲整形可控的高通量高质量飞秒激光增强化学刻蚀
7. Controllable high-throughput high-quality femtosecond laser-enhanced chemical etching by temporal pulse shaping based on electron density control [O] . Mengjiao Zhao, Jie Hu, Lan Jiang, 2015

机译：基于电子密度控制的颞脉冲成型可控高通量高质量的飞秒激光增强化学蚀刻
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

High-throughput rear-surface drilling of microchannels in glass based on electron dynamics control using femtosecond pulse trains

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