Nonlinear femtosecond pulse compression at high average power levels by use of a large-mode-area holey fiber

T. Südmeyer; F. Brunner; E. Innerhofer; R. Paschotta; K. Furusawa; J. C. Baggett; T. M. Monro; D. J. Richardson; U. Keller

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Nonlinear femtosecond pulse compression at high average power levels by use of a large-mode-area holey fiber

Südmeyer T
Brunner F
Innerhofer E
et al.

Optics Letters (2003) 28(20) 1951

DOI: 10.1364/ol.28.001951

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Abstract

We demonstrate that nonlinear fiber compression is possible at unprecedented average power levels by use of a large-mode-area holey (microstructured) fiber and a passively mode-locked thin disk Yb:YAG laser operating at 1030 nm. We broaden the optical spectrum of the 810-fs pump pulses by nonlinear propagation in the fiber and remove the resultant chirp with a dispersive prism pair to achieve 18 W of average power in 33-fs pulses with a peak power of 12 MW and a repetition rate of 34 MHz. The output beam is nearly diffraction limited and is linearly polarized.

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Südmeyer, T., Brunner, F., Innerhofer, E., Paschotta, R., Furusawa, K., Baggett, J. C., … Keller, U. (2003). Nonlinear femtosecond pulse compression at high average power levels by use of a large-mode-area holey fiber. Optics Letters, 28(20), 1951. https://doi.org/10.1364/ol.28.001951

Nonlinear femtosecond pulse compression at high average power levels by use of a large-mode-area holey fiber

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