Publikation: Passively mode-locked Yb:YAG thin-disk laser with pulse energies exceeding 13 myJ by use of an active multipass geometry
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Optics Letters. 2008, 33(7), pp. 726-728. Available under: doi: 10.1364/OL.33.000726
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We demonstrate the generation of high-energy picosecond pulses directly from a thin-disk laser oscillator by employing a self-imaging active multipass geometry. Stable single-pulse operation has been obtained with an average output power in excess of 50 W, excluding a cw background of 8%, at a repetition rate of 3.8 MHz. Self-starting passive mode locking was accomplished using a semiconductor saturable absorber mirror. The maximum pulse energy was 13.4 μJ at a pulse duration of 1.36 ps with a time-bandwidth product of 0.34. Single-pass external frequency doubling with a conversion efficiency of 60% yielded μ28 W of average power at 515 nm.
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NEUHAUS, Jörg, Jochen KLEINBAUER, Alexander KILLI, Sascha WEILER, Dirk SUTTER, Thomas DEKORSY, 2008. Passively mode-locked Yb:YAG thin-disk laser with pulse energies exceeding 13 myJ by use of an active multipass geometry. In: Optics Letters. 2008, 33(7), pp. 726-728. Available under: doi: 10.1364/OL.33.000726BibTex
@article{Neuhaus2008Passi-4894,
year={2008},
doi={10.1364/OL.33.000726},
title={Passively mode-locked Yb:YAG thin-disk laser with pulse energies exceeding 13 myJ by use of an active multipass geometry},
number={7},
volume={33},
journal={Optics Letters},
pages={726--728},
author={Neuhaus, Jörg and Kleinbauer, Jochen and Killi, Alexander and Weiler, Sascha and Sutter, Dirk and Dekorsy, Thomas}
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<dcterms:abstract xml:lang="eng">We demonstrate the generation of high-energy picosecond pulses directly from a thin-disk laser oscillator by employing a self-imaging active multipass geometry. Stable single-pulse operation has been obtained with an average output power in excess of 50 W, excluding a cw background of 8%, at a repetition rate of 3.8 MHz. Self-starting passive mode locking was accomplished using a semiconductor saturable absorber mirror. The maximum pulse energy was 13.4 μJ at a pulse duration of 1.36 ps with a time-bandwidth product of 0.34. Single-pass external frequency doubling with a conversion efficiency of 60% yielded μ28 W of average power at 515 nm.</dcterms:abstract>
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