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Proceedings Paper

Few-cycle high- energy pulse compression at MHz repetition rate
Author(s): Thomas Ganz; Wolfgang Köhler; Volodymyr Pervak; Peter Baum
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Paper Abstract

We demonstrate a simple method for spectral broadening and compression of laser pulses at megahertz repetition rates by self-phase modulation in a large mode area (LMA) fiber. In order to avoid the currently limiting factor of damage by self-focusing, we positively chirp the input pulse, which allows coupling of significantly more energy into the fiber, while maintaining the same spectral bandwidth and compression as compared to the Fourier-limited case at lower energy. Using a commercial chirped pulse Ti:Sa oscillator (Femtolasers, Femtosource XL) with 55fs, 400nJ pulses at 5MHz and an LMA fiber with 25μm core diameter, we generate 16fs, 350nJ pulses, which is a factor of 4 more energy than possible with unchirped input pulses. Good stability has been measured over at least 1 hour for the chirped case and unchirped case. Furthermore, with a 5μm core diameter LMA fiber we generated compressed pulses with 6fs and 18nJ output energy. This would allow a carrier-to-envelope phase stabilization of the laser system by external selfstabilization via acoustic difference-frequency modulation. The compact size and its simplicity makes the combination of a chirped pulse oscillator with chirped-fiber-broadening an attractive option for ultrafast spectroscopy at MHz repetition rate.

Paper Details

Date Published: 15 February 2012
PDF: 7 pages
Proc. SPIE 8240, Nonlinear Frequency Generation and Conversion: Materials, Devices, and Applications XI, 82400S (15 February 2012); doi: 10.1117/12.906757
Show Author Affiliations
Thomas Ganz, FEMTOLASERS Produktions GmbH (Germany)
Wolfgang Köhler, FEMTOLASERS Produktions GmbH (Germany)
Volodymyr Pervak, Ludwig-Maximilians-Univ. München (Germany)
Max-Planck-Institut für Quantenoptik (Germany)
Peter Baum, Ludwig-Maximilians-Univ. München (Germany)
Max-Planck-Institut für Quantenoptik (Germany)

Published in SPIE Proceedings Vol. 8240:
Nonlinear Frequency Generation and Conversion: Materials, Devices, and Applications XI
Konstantin L. Vodopyanov, Editor(s)

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