Beck B, Kromm M, Schmauß B (2024)
Publication Type: Journal article
Publication year: 2024
Book Volume: 124
Pages Range: 594-597
DOI: 10.1016/j.procir.2024.08.181
The adaptation of laser pulse parameters is required for different material processing steps. Especially if the processing has to be done using a single laser system, a flexible variation of the pulse properties is needed. Especially the generation of pulse bursts with ps spacing enable many refinement process steps. As fiber lasers are suitable in the micro material processing regime due to their excellent beam parameter products and short pulses, an adaptive filter for pulse shaping is highly desired. This work derives a general filter theory for generating pulse bursts from ultrashort pulses and extends it for dispersion compensation. The theory is validated by simulation and experiments with a low repetition rate fiber laser and a commercial programmable optical filter. Simulations prove the viability of pulse burst generation with dispersion compensation. With the experimental setup 2-4 ps pulses with 15-25 ps spacing are generated from one ultrashort pulse.
APA:
Beck, B., Kromm, M., & Schmauß, B. (2024). Picosecond spaced pulse burst generation using a low repetition rate ultrafast fiber laser and spectral filtering. Procedia CIRP, 124, 594-597. https://doi.org/10.1016/j.procir.2024.08.181
MLA:
Beck, Benedikt, Michail Kromm, and Bernhard Schmauß. "Picosecond spaced pulse burst generation using a low repetition rate ultrafast fiber laser and spectral filtering." Procedia CIRP 124 (2024): 594-597.
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