Shockwave observation of femtosecond laser ablation on Si3N4 ceramic

Feng Tian; Mengmeng Wang

doi:10.1117/12.2602423

Shockwave observation of femtosecond laser ablation on Si₃N₄ ceramic

Feng Tian, Mengmeng Wang^*

^*Corresponding author for this work

School of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Processing the Si₃N₄ ceramic is a big challenge because of its high hardness and brittleness. Femtosecond (fs) laser is an excellent method to process the Si₃N₄ ceramic. However, the temporal evolution of the fs laser induced plasma from the initialization to the disappearance is still lacking for deeply understanding the laser-matter mechanisms. In this study, we employ the pump-probe shadowgraphy and the ultrafast plasma imaging to observe the whole shockwave evolution on Si₃N₄ ceramic. We find that the shockwave propagates in a spherical law and the velocity of shockwave decreases rapidly in the first 50 ns, and finally approaches to the speed of sound at the delay of 430 ns. The relationship between plasma melting, expansion and shockwave propagation was revealed to provide further insight into the fs laser ablation of Si₃N₄ ceramic.

Original language	English
Title of host publication	International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021
Editors	Changsi Peng, Fengjie Cen
Publisher	SPIE
ISBN (Electronic)	9781510646162
DOIs	https://doi.org/10.1117/12.2602423
Publication status	Published - 2021
Event	2021 International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021 - Xi'an, China Duration: 28 May 2021 → 30 May 2021

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	11885
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	2021 International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021
Country/Territory	China
City	Xi'an
Period	28/05/21 → 30/05/21

Keywords

Femtosecond laser
Interaction mechanism
Observation
SiN ceramic

Access to Document

10.1117/12.2602423

Cite this

@inproceedings{cecb0645f2d64c34a8f29bcb537e148a,

title = "Shockwave observation of femtosecond laser ablation on Si3N4 ceramic",

abstract = "Processing the Si3N4 ceramic is a big challenge because of its high hardness and brittleness. Femtosecond (fs) laser is an excellent method to process the Si3N4 ceramic. However, the temporal evolution of the fs laser induced plasma from the initialization to the disappearance is still lacking for deeply understanding the laser-matter mechanisms. In this study, we employ the pump-probe shadowgraphy and the ultrafast plasma imaging to observe the whole shockwave evolution on Si3N4 ceramic. We find that the shockwave propagates in a spherical law and the velocity of shockwave decreases rapidly in the first 50 ns, and finally approaches to the speed of sound at the delay of 430 ns. The relationship between plasma melting, expansion and shockwave propagation was revealed to provide further insight into the fs laser ablation of Si3N4 ceramic.",

keywords = "Femtosecond laser, Interaction mechanism, Observation, SiN ceramic",

author = "Feng Tian and Mengmeng Wang",

note = "Publisher Copyright: {\textcopyright} 2021 SPIE; 2021 International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021 ; Conference date: 28-05-2021 Through 30-05-2021",

year = "2021",

doi = "10.1117/12.2602423",

language = "English",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "SPIE",

editor = "Changsi Peng and Fengjie Cen",

booktitle = "International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021",

address = "United States",

}

Tian, F & Wang, M 2021, Shockwave observation of femtosecond laser ablation on Si₃N₄ ceramic. in C Peng & F Cen (eds), International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021., 118850H, Proceedings of SPIE - The International Society for Optical Engineering, vol. 11885, SPIE, 2021 International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021, Xi'an, China, 28/05/21. https://doi.org/10.1117/12.2602423

Shockwave observation of femtosecond laser ablation on Si₃N₄ ceramic. / Tian, Feng; Wang, Mengmeng.
International Conference on Laser, Optics and Optoelectronic Technology, LOPET 2021. ed. / Changsi Peng; Fengjie Cen. SPIE, 2021. 118850H (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 11885).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Tian, Feng

AU - Wang, Mengmeng

PY - 2021

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N2 - Processing the Si3N4 ceramic is a big challenge because of its high hardness and brittleness. Femtosecond (fs) laser is an excellent method to process the Si3N4 ceramic. However, the temporal evolution of the fs laser induced plasma from the initialization to the disappearance is still lacking for deeply understanding the laser-matter mechanisms. In this study, we employ the pump-probe shadowgraphy and the ultrafast plasma imaging to observe the whole shockwave evolution on Si3N4 ceramic. We find that the shockwave propagates in a spherical law and the velocity of shockwave decreases rapidly in the first 50 ns, and finally approaches to the speed of sound at the delay of 430 ns. The relationship between plasma melting, expansion and shockwave propagation was revealed to provide further insight into the fs laser ablation of Si3N4 ceramic.

AB - Processing the Si3N4 ceramic is a big challenge because of its high hardness and brittleness. Femtosecond (fs) laser is an excellent method to process the Si3N4 ceramic. However, the temporal evolution of the fs laser induced plasma from the initialization to the disappearance is still lacking for deeply understanding the laser-matter mechanisms. In this study, we employ the pump-probe shadowgraphy and the ultrafast plasma imaging to observe the whole shockwave evolution on Si3N4 ceramic. We find that the shockwave propagates in a spherical law and the velocity of shockwave decreases rapidly in the first 50 ns, and finally approaches to the speed of sound at the delay of 430 ns. The relationship between plasma melting, expansion and shockwave propagation was revealed to provide further insight into the fs laser ablation of Si3N4 ceramic.

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