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Suppression of stress and crack generation in local glass melting by picosecond laser irradiation at a high repetition rates with temporal energy modulation

Suppression of stress and crack generation in local glass melting by picosecond laser irradiation at a high repetition rates with temporal energy modulation
Suppression of stress and crack generation in local glass melting by picosecond laser irradiation at a high repetition rates with temporal energy modulation
Modification lines by local melting inside glass were written by focusing picosecond laser pulses at high repetition rate with temporal modulation of pulse energies. It was found that straight modification lines with homogeneous stress distribution was able to be written by ps laser irradiation with temporal energy modulation, while modification lines written by ps laser irradiation without modulation had curved boundaries and concentrated stress. The threshold of the crack generation was higher with temporal energy modulation (22 μJ of the average pulse energy) than that without modulation (16.5 μJ of the average pulse energy), which resulted in about 1.3 times larger width of modification line with modulation than that without modulation. In addition, the elongation of a modification line in the laser propagation direction could be suppressed with modulation. The mechanism of the suppression of stress and crack generation with temporal energy modulation will be discussed according to the movement of light absorbed region during laser irradiation.
ultrafast laser, glass, welding, temporal modulation, processing
1880-0688
126-131
Nakamura, Akinao
e9536140-f47f-47ef-9a85-e8ce8e4797d8
Sakakura, Masaaki
3bb15bbd-d590-4cba-ab5a-862dc7acd054
Shimotsuma, Yasuhiko
0664279b-def2-41d4-a5ec-207ce02013a7
Miura, Kiyotaka
5dbc9159-ace0-4dd9-b18d-36f87ae78c47
Nakamura, Akinao
e9536140-f47f-47ef-9a85-e8ce8e4797d8
Sakakura, Masaaki
3bb15bbd-d590-4cba-ab5a-862dc7acd054
Shimotsuma, Yasuhiko
0664279b-def2-41d4-a5ec-207ce02013a7
Miura, Kiyotaka
5dbc9159-ace0-4dd9-b18d-36f87ae78c47

Nakamura, Akinao, Sakakura, Masaaki, Shimotsuma, Yasuhiko and Miura, Kiyotaka (2017) Suppression of stress and crack generation in local glass melting by picosecond laser irradiation at a high repetition rates with temporal energy modulation. Journal of Laser Micro/Nanoengineering, 12 (2), 126-131. (doi:10.2961/jlmn.2017.02.0014).

Record type: Article

Abstract

Modification lines by local melting inside glass were written by focusing picosecond laser pulses at high repetition rate with temporal modulation of pulse energies. It was found that straight modification lines with homogeneous stress distribution was able to be written by ps laser irradiation with temporal energy modulation, while modification lines written by ps laser irradiation without modulation had curved boundaries and concentrated stress. The threshold of the crack generation was higher with temporal energy modulation (22 μJ of the average pulse energy) than that without modulation (16.5 μJ of the average pulse energy), which resulted in about 1.3 times larger width of modification line with modulation than that without modulation. In addition, the elongation of a modification line in the laser propagation direction could be suppressed with modulation. The mechanism of the suppression of stress and crack generation with temporal energy modulation will be discussed according to the movement of light absorbed region during laser irradiation.

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More information

Accepted/In Press date: 16 August 2017
Published date: September 2017
Additional Information: No Southampton authors at time of publication
Keywords: ultrafast laser, glass, welding, temporal modulation, processing
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 431179
URI: http://eprints.soton.ac.uk/id/eprint/431179
DOI: doi:10.2961/jlmn.2017.02.0014
ISSN: 1880-0688
PURE UUID: d2276788-8342-4278-b249-ca3574be5572

Catalogue record

Date deposited: 24 May 2019 16:30
Last modified: 16 Mar 2024 01:56

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Contributors

Author: Akinao Nakamura
Author: Masaaki Sakakura
Author: Yasuhiko Shimotsuma
Author: Kiyotaka Miura

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