Thermo-elasto-plastic simulations of femtosecond laser-induced multiple-cavity in fused silica

Thermo-elasto-plastic simulations of femtosecond laser-induced multiple-cavity in fused silica

The formation and the interaction of multiple cavities, induced by tightly focused femtosecond laser pulses, are studied using a developed numerical tool, including the thermo-elasto-plastic material response. Simulations are performed in fused silica in cases of one, two, and four spots of laser en...

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Veröffentlicht in:Applied physics. A, Materials science & processing Materials science & processing, 2018-04, Vol.124 (4), p.1-10, Article 324
Hauptverfasser: Beuton, R., Chimier, B., Breil, J., Hébert, D., Mishchik, K., Lopez, J., Maire, P. H., Duchateau, G.
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Characterization and Evaluation of Materials
COLA2017
Computer simulation
Condensed Matter Physics
Deposition
Femtosecond pulses
Fused silica
Holes
Laser beam heating
Lasers
Launching
Machines
Manufacturing
Materials science
Nanotechnology
Optical and Electronic Materials
Optics
Physics
Physics and Astronomy
Plasma Physics
Processes
Shock waves
Silicon dioxide
Surfaces and Interfaces
Thin Films
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Beschreibung
Zusammenfassung:The formation and the interaction of multiple cavities, induced by tightly focused femtosecond laser pulses, are studied using a developed numerical tool, including the thermo-elasto-plastic material response. Simulations are performed in fused silica in cases of one, two, and four spots of laser energy deposition. The relaxation of the heated matter, launching shock waves in the surrounding cold material, leads to cavity formation and emergence of areas where cracks may be induced. Results show that the laser-induced structure shape depends on the energy deposition configuration and demonstrate the potential of the used numerical tool to obtain the desired designed structure or technological process.
ISSN:0947-8396
0721-7250
1432-0630
DOI:10.1007/s00339-018-1743-x