Periodic surface structures induced by femtosecond laser single pulse and pulse trains on metals

Jun Xie; Feng Wang; Lan Jiang; Liangliang Zhao; Yongfeng Lu

doi:10.1088/1054-660X/25/5/056103

Periodic surface structures induced by femtosecond laser single pulse and pulse trains on metals

Jun Xie, Feng Wang, Lan Jiang, Liangliang Zhao, Yongfeng Lu

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

We experimentally investigate the formation of nanostructures on the surfaces of aluminum and copper with femtosecond laser single pulse and pulse trains. Subwavelength ripples were obtained on the surface of aluminum. The ripples' period gradually increases as the laser pulse fluence increases. With a single pulse ablation of copper, interlaced ripple structures formed on the wall of the crater when the laser pulse number is 2000, the reason for interlaced ripple formation is also discussed. A large scale of ripple structures formed by using a femtosecond laser single pulse and pulse trains to scan copper. We suggest that a pulse train is more effective in obtaining high quality ripple structures compared with a femtosecond laser single pulse.

Original language	English
Article number	056103
Journal	Laser Physics
Volume	25
Issue number	5
DOIs	https://doi.org/10.1088/1054-660X/25/5/056103
Publication status	Published - 1 May 2015

Keywords

femtosecond laser
metal
pulse train
surface structures

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10.1088/1054-660X/25/5/056103

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title = "Periodic surface structures induced by femtosecond laser single pulse and pulse trains on metals",

abstract = "We experimentally investigate the formation of nanostructures on the surfaces of aluminum and copper with femtosecond laser single pulse and pulse trains. Subwavelength ripples were obtained on the surface of aluminum. The ripples' period gradually increases as the laser pulse fluence increases. With a single pulse ablation of copper, interlaced ripple structures formed on the wall of the crater when the laser pulse number is 2000, the reason for interlaced ripple formation is also discussed. A large scale of ripple structures formed by using a femtosecond laser single pulse and pulse trains to scan copper. We suggest that a pulse train is more effective in obtaining high quality ripple structures compared with a femtosecond laser single pulse.",

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AU - Xie, Jun

AU - Wang, Feng

AU - Jiang, Lan

AU - Zhao, Liangliang

AU - Lu, Yongfeng

PY - 2015/5/1

Y1 - 2015/5/1

N2 - We experimentally investigate the formation of nanostructures on the surfaces of aluminum and copper with femtosecond laser single pulse and pulse trains. Subwavelength ripples were obtained on the surface of aluminum. The ripples' period gradually increases as the laser pulse fluence increases. With a single pulse ablation of copper, interlaced ripple structures formed on the wall of the crater when the laser pulse number is 2000, the reason for interlaced ripple formation is also discussed. A large scale of ripple structures formed by using a femtosecond laser single pulse and pulse trains to scan copper. We suggest that a pulse train is more effective in obtaining high quality ripple structures compared with a femtosecond laser single pulse.

AB - We experimentally investigate the formation of nanostructures on the surfaces of aluminum and copper with femtosecond laser single pulse and pulse trains. Subwavelength ripples were obtained on the surface of aluminum. The ripples' period gradually increases as the laser pulse fluence increases. With a single pulse ablation of copper, interlaced ripple structures formed on the wall of the crater when the laser pulse number is 2000, the reason for interlaced ripple formation is also discussed. A large scale of ripple structures formed by using a femtosecond laser single pulse and pulse trains to scan copper. We suggest that a pulse train is more effective in obtaining high quality ripple structures compared with a femtosecond laser single pulse.

KW - femtosecond laser

KW - metal

KW - pulse train

KW - surface structures

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VL - 25

JO - Laser Physics

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Periodic surface structures induced by femtosecond laser single pulse and pulse trains on metals

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