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Atmospheric propagation effects of high-power ultrafast mid-infrared laser radiation

: Gebhardt, M.; Gaida, C.; Stutzki, F.; Hädrich, S.; Jauregui, C.; Limpert, J.; Tünnermann, A.

Optical Society of America -OSA-, Washington/D.C.:
European Conference on Lasers and Electro-Optics 2015 : European Quantum Electronics Conference, Munich, Germany, 21–25 June 2015
Washington, DC: OSA, 2015
ISBN: 978-1-4673-7475-0
Paper CJ 5 5
European Conference on Lasers and Electro-Optics (CLEO Europe) <2015, Munich>
European Quantum Electronics Conference (EQEC) <2015, Munich>
Fraunhofer IOF ()

In recent experiments of high-performance two micron ultrafast fiber-laser systems rather unexpected effects have been observed, which challenge peak as well as average power scaling in this interesting spectral region around 1.9 μm [1]. These effects can be associated with the propagation in ambient air (in this case with water-vapor absorption lines) and they affect both the quality of the pulse profile in the temporal domain [2] and the spatial confinement of the beam profile [3]. Although these effects have been known for several decades, they have, to the best of our knowledge, not yet been studied in context with peak and average power scaling of ultrafast mid-infrared lasers. We have identified them as one major obstacle in the performance scaling potential of the aforementioned sources in general and first mitigation strategies have already been successfully applied.