Ethanol-assisted ablation of silicon and germanium by temporally shaped femtosecond pulses

Guangming Zhang; Xin Li; Lan Jiang; Xuesong Shi; Kaihu Zhang; Qiang Cao; Yongfeng Lu

doi:10.3788/COL201513.041402

Ethanol-assisted ablation of silicon and germanium by temporally shaped femtosecond pulses

Guangming Zhang, Xin Li^*, Lan Jiang, Xuesong Shi, Kaihu Zhang, Qiang Cao, Yongfeng Lu

^*此作品的通讯作者

机械与车辆学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

A surprising phenomenon can be discovered by using femtosecond double-pulse ablation of silicon and germanium in ethanol. The ablation areas present an oscillation increase phenomenon when the pulse delay increases from 200 fs to 1 ps in the fluence range of 0.5-0.6 J/cm². In contrast, the ablation areas exhibit an oscillation decrease phenomenon as the pulse delay increases when the laser fluence F < 0.5 J/cm², which is consistent with the results of the experiment in air. It is considered that the adjustment of the photon-electron coupling efficiency by pulse train technology plays an important role in the ablation process.

源语言	英语
文章编号	041402
期刊	Chinese Optics Letters
卷	13
期	4
DOI	https://doi.org/10.3788/COL201513.041402
出版状态	已出版 - 10 4月 2015

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Zhang, G., Li, X., Jiang, L., Shi, X., Zhang, K., Cao, Q., & Lu, Y. (2015). Ethanol-assisted ablation of silicon and germanium by temporally shaped femtosecond pulses. Chinese Optics Letters, 13(4), 文章 041402. https://doi.org/10.3788/COL201513.041402

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title = "Ethanol-assisted ablation of silicon and germanium by temporally shaped femtosecond pulses",

abstract = "A surprising phenomenon can be discovered by using femtosecond double-pulse ablation of silicon and germanium in ethanol. The ablation areas present an oscillation increase phenomenon when the pulse delay increases from 200 fs to 1 ps in the fluence range of 0.5-0.6 J/cm2. In contrast, the ablation areas exhibit an oscillation decrease phenomenon as the pulse delay increases when the laser fluence F < 0.5 J/cm2, which is consistent with the results of the experiment in air. It is considered that the adjustment of the photon-electron coupling efficiency by pulse train technology plays an important role in the ablation process.",

author = "Guangming Zhang and Xin Li and Lan Jiang and Xuesong Shi and Kaihu Zhang and Qiang Cao and Yongfeng Lu",

note = "Publisher Copyright: {\textcopyright} 2015 Chinese Optics Letters.",

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doi = "10.3788/COL201513.041402",

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T1 - Ethanol-assisted ablation of silicon and germanium by temporally shaped femtosecond pulses

AU - Zhang, Guangming

AU - Li, Xin

AU - Jiang, Lan

AU - Shi, Xuesong

AU - Zhang, Kaihu

AU - Cao, Qiang

AU - Lu, Yongfeng

PY - 2015/4/10

Y1 - 2015/4/10

N2 - A surprising phenomenon can be discovered by using femtosecond double-pulse ablation of silicon and germanium in ethanol. The ablation areas present an oscillation increase phenomenon when the pulse delay increases from 200 fs to 1 ps in the fluence range of 0.5-0.6 J/cm2. In contrast, the ablation areas exhibit an oscillation decrease phenomenon as the pulse delay increases when the laser fluence F < 0.5 J/cm2, which is consistent with the results of the experiment in air. It is considered that the adjustment of the photon-electron coupling efficiency by pulse train technology plays an important role in the ablation process.

AB - A surprising phenomenon can be discovered by using femtosecond double-pulse ablation of silicon and germanium in ethanol. The ablation areas present an oscillation increase phenomenon when the pulse delay increases from 200 fs to 1 ps in the fluence range of 0.5-0.6 J/cm2. In contrast, the ablation areas exhibit an oscillation decrease phenomenon as the pulse delay increases when the laser fluence F < 0.5 J/cm2, which is consistent with the results of the experiment in air. It is considered that the adjustment of the photon-electron coupling efficiency by pulse train technology plays an important role in the ablation process.

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DO - 10.3788/COL201513.041402

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JO - Chinese Optics Letters

JF - Chinese Optics Letters

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M1 - 041402

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Ethanol-assisted ablation of silicon and germanium by temporally shaped femtosecond pulses

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