飞秒激光时空整形的电子动态调控微孔加工

Chao Zhang; Min Li; Baichen Ye; Jianying Wu; Zhi Wang; Xiaowei Li

doi:10.12086/oee.2022.210389

飞秒激光时空整形的电子动态调控微孔加工

Translated title of the contribution: Electrons dynamics control micro-hole drilling using temporally/spatially shaped femtosecond laser

Chao Zhang, Min Li, Baichen Ye, Jianying Wu, Zhi Wang, Xiaowei Li^*

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Review article › peer-review

4 Citations (Scopus)

Abstract

As a common structure, microholes are widely used in various fields, including biomedical, aerospace, 3D packaging and so on. Femtosecond laser has unique advantages in drilling high-quality microhole due to its ultra-short pulse duration and ultra-high peak power. This review covers temporally/spatially shaped femtosecond laser microhole drilling methods and their applications over the past decade, including femtosecond laser temporally/spatially shaped methods, temporally/spatially shaped femtosecond laser microhole drilling based on electrons dynamics control, and the applications of microhole in transmittance enhancement and anti-reflection, material cutting, oil/water separation, fog collection and gas collection. Furthermore, present challenges and future research opportunities in this field are analyzed.

Translated title of the contribution	Electrons dynamics control micro-hole drilling using temporally/spatially shaped femtosecond laser
Original language	Chinese (Traditional)
Article number	210389
Journal	Guangdian Gongcheng/Opto-Electronic Engineering
Volume	49
Issue number	2
DOIs	https://doi.org/10.12086/oee.2022.210389
Publication status	Published - 25 Feb 2022

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title = "飞秒激光时空整形的电子动态调控微孔加工",

abstract = "As a common structure, microholes are widely used in various fields, including biomedical, aerospace, 3D packaging and so on. Femtosecond laser has unique advantages in drilling high-quality microhole due to its ultra-short pulse duration and ultra-high peak power. This review covers temporally/spatially shaped femtosecond laser microhole drilling methods and their applications over the past decade, including femtosecond laser temporally/spatially shaped methods, temporally/spatially shaped femtosecond laser microhole drilling based on electrons dynamics control, and the applications of microhole in transmittance enhancement and anti-reflection, material cutting, oil/water separation, fog collection and gas collection. Furthermore, present challenges and future research opportunities in this field are analyzed.",

keywords = "Electrons dynamic control, Femtosecond laser, Micro-hole applications, Micro-hole drilling, Temporally/spatially shaping",

author = "Chao Zhang and Min Li and Baichen Ye and Jianying Wu and Zhi Wang and Xiaowei Li",

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AU - Zhang, Chao

AU - Li, Min

AU - Ye, Baichen

AU - Wu, Jianying

AU - Wang, Zhi

AU - Li, Xiaowei

PY - 2022/2/25

Y1 - 2022/2/25

N2 - As a common structure, microholes are widely used in various fields, including biomedical, aerospace, 3D packaging and so on. Femtosecond laser has unique advantages in drilling high-quality microhole due to its ultra-short pulse duration and ultra-high peak power. This review covers temporally/spatially shaped femtosecond laser microhole drilling methods and their applications over the past decade, including femtosecond laser temporally/spatially shaped methods, temporally/spatially shaped femtosecond laser microhole drilling based on electrons dynamics control, and the applications of microhole in transmittance enhancement and anti-reflection, material cutting, oil/water separation, fog collection and gas collection. Furthermore, present challenges and future research opportunities in this field are analyzed.

AB - As a common structure, microholes are widely used in various fields, including biomedical, aerospace, 3D packaging and so on. Femtosecond laser has unique advantages in drilling high-quality microhole due to its ultra-short pulse duration and ultra-high peak power. This review covers temporally/spatially shaped femtosecond laser microhole drilling methods and their applications over the past decade, including femtosecond laser temporally/spatially shaped methods, temporally/spatially shaped femtosecond laser microhole drilling based on electrons dynamics control, and the applications of microhole in transmittance enhancement and anti-reflection, material cutting, oil/water separation, fog collection and gas collection. Furthermore, present challenges and future research opportunities in this field are analyzed.

KW - Electrons dynamic control

KW - Femtosecond laser

KW - Micro-hole applications

KW - Micro-hole drilling

KW - Temporally/spatially shaping

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M3 - 文献综述

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SN - 1003-501X

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飞秒激光时空整形的电子动态调控微孔加工

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