Ultra-short pulses at high average power in the Laser MicroJet

Chaja, MichalinA; Laporte, Gregoire; Cam, Peter; Remund, Stefan; Neuenschwander, Beat; Molpeceres, Carlos; Narazaki, Aiko; Qiao, Jie (2021). Ultra-short pulses at high average power in the Laser MicroJet In: Laser Applications in Microelectronic and Optoelectronic Manufacturing (LAMOM) XXVI (p. 43). SPIE 10.1117/12.2585550

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he commercially available Synova Laser MicroJet® technology combines conventional laser capabilities with compressed water jet that precisely guide laser beam in a similar manner to optical fibers. Due to physical water breakdown, technology is typically focused on the nanosecond pulse duration range. A stable beam shaping setup with a diffusor and commercial fiber to couple into water jet, was developed allowing to test Laser MicroJet® at 100-300 ps pulse duration. The change to energy intensity profile with diffuser allowed to triple coupled energy without inducing the physical breakdown in water and could be further increased by implementing 2 and 3 pulse bursts into the setup. High quality scribing was achieved at Si wafer at high scanning speed. Preliminary results on multilayer Si-wafer have demonstrated that scribing quality is in this case more feedrate dependent, limited chipping occurring at speed of commercial interest. Cutting tests were performed on semiconductors as well as on metals. On both, it was possible to achieve high quality cuts with high feedrate up to 12 mm/s with Ra < 0,3 μm.

Item Type:

Conference or Workshop Item (Paper)

Division/Institute:

School of Engineering and Computer Science > Institute for Surface Applied Laser, Phototonics and Surface Technologies ALPS > ALPS / Laser Surface Engineering

Name:

Chaja, MichalinA;
Laporte, Gregoire;
Cam, Peter;
Remund, Stefan;
Neuenschwander, Beat0000-0001-9715-8557;
Molpeceres, Carlos;
Narazaki, Aiko and
Qiao, Jie

Subjects:

Q Science > QC Physics
T Technology > TJ Mechanical engineering and machinery

ISBN:

9781510641822

Publisher:

SPIE

Language:

English

Submitter:

Beat Neuenschwander

Date Deposited:

02 Aug 2021 16:07

Last Modified:

04 Nov 2021 21:46

Publisher DOI:

10.1117/12.2585550

URI:

https://arbor.bfh.ch/id/eprint/15217

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