Condensation of Si-rich region inside soda-lime glass by parallel femtosecond laser irradiation
Condensation of Si-rich region inside soda-lime glass by parallel femtosecond laser irradiation
Local melting and modulation of elemental distributions can be induced inside a glass by focusing femtosecond (fs) laser pulses at high repetition rate (>100 kHz). Using only a single beam of fs laser pulses, the shape of the molten region is ellipsoidal, so the induced elemental distributions are often circular and elongate in the laser propagation direction. In this study, we show that the elongation of the fs laser-induced elemental distributions inside a soda-lime glass could be suppressed by parallel fsing of 250 kHz and 1 kHz fs laser pulses. The thickness of a Si-rich region became about twice thinner than that of a single 250 kHz laser irradiation. Interestingly, the position of the Si-rich region depended on the relative positions between 1 kHz and 250 kHz photoexcited regions. The observation of glass melt during laser exposure showed that the vortex flow of glass melt occurred and it induced the formation of a Si-rich region. Based on the simulation of the transient temperature and viscosity distributions during laser exposure, we temporally interpreted the origin of the vortex flow of glass melt and the mechanism of the formation of the Si-rich region.
16493-16503
Sakakura, Masaaki
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Yoshimura, Kouhei
faf1adac-77fe-43b5-a054-6f3addd5626d
Kurita, Torataro
da40a03b-476c-41d6-806e-0d185a973318
Shimizu, Masahiro
f08d0c1c-3975-4979-a49d-50fe94bfdc80
Shimotsuma, Yasuhiko
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Fukuda, Naoaki
de44deed-c825-49ce-b6d5-5508dedb1abf
Hirao, Kazuyuki
5cc5061d-6217-49ae-bc92-ff5b72b9c6c2
Miura, Kiyotaka
5dbc9159-ace0-4dd9-b18d-36f87ae78c47
30 June 2014
Sakakura, Masaaki
3bb15bbd-d590-4cba-ab5a-862dc7acd054
Yoshimura, Kouhei
faf1adac-77fe-43b5-a054-6f3addd5626d
Kurita, Torataro
da40a03b-476c-41d6-806e-0d185a973318
Shimizu, Masahiro
f08d0c1c-3975-4979-a49d-50fe94bfdc80
Shimotsuma, Yasuhiko
0664279b-def2-41d4-a5ec-207ce02013a7
Fukuda, Naoaki
de44deed-c825-49ce-b6d5-5508dedb1abf
Hirao, Kazuyuki
5cc5061d-6217-49ae-bc92-ff5b72b9c6c2
Miura, Kiyotaka
5dbc9159-ace0-4dd9-b18d-36f87ae78c47
Sakakura, Masaaki, Yoshimura, Kouhei, Kurita, Torataro, Shimizu, Masahiro, Shimotsuma, Yasuhiko, Fukuda, Naoaki, Hirao, Kazuyuki and Miura, Kiyotaka
(2014)
Condensation of Si-rich region inside soda-lime glass by parallel femtosecond laser irradiation.
Optics Express, 22 (13), .
(doi:10.1364/OE.22.016493).
Abstract
Local melting and modulation of elemental distributions can be induced inside a glass by focusing femtosecond (fs) laser pulses at high repetition rate (>100 kHz). Using only a single beam of fs laser pulses, the shape of the molten region is ellipsoidal, so the induced elemental distributions are often circular and elongate in the laser propagation direction. In this study, we show that the elongation of the fs laser-induced elemental distributions inside a soda-lime glass could be suppressed by parallel fsing of 250 kHz and 1 kHz fs laser pulses. The thickness of a Si-rich region became about twice thinner than that of a single 250 kHz laser irradiation. Interestingly, the position of the Si-rich region depended on the relative positions between 1 kHz and 250 kHz photoexcited regions. The observation of glass melt during laser exposure showed that the vortex flow of glass melt occurred and it induced the formation of a Si-rich region. Based on the simulation of the transient temperature and viscosity distributions during laser exposure, we temporally interpreted the origin of the vortex flow of glass melt and the mechanism of the formation of the Si-rich region.
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More information
Accepted/In Press date: 29 May 2014
e-pub ahead of print date: 26 June 2014
Published date: 30 June 2014
Additional Information:
No Southampton authors at time of publication
Identifiers
Local EPrints ID: 431156
URI: http://eprints.soton.ac.uk/id/eprint/431156
ISSN: 1094-4087
PURE UUID: b8f2bbdd-92eb-4b73-9d71-f3df70ec4551
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Date deposited: 24 May 2019 16:30
Last modified: 16 Mar 2024 01:56
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Contributors
Author:
Masaaki Sakakura
Author:
Kouhei Yoshimura
Author:
Torataro Kurita
Author:
Masahiro Shimizu
Author:
Yasuhiko Shimotsuma
Author:
Naoaki Fukuda
Author:
Kazuyuki Hirao
Author:
Kiyotaka Miura
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