Adaptive Optimization of High Order Harmonic Generation In a Free Propagation Geometry

David Reitze; Frederick Weihe; Sophie Kazamias; Denis Douillet; Genevieve Mullot; Fredericka Auge; Olivier Albert; Jean Paul Chambaret; Daniele Hulin; Philippe Balcou

doi:10.1364/UP.2002.TuE7

The Thirteenth International Conference on Ultrafast Phenomena
2002 OSA Technical Digest Series (Optica Publishing Group, 2002),
paper TuE7
•https://doi.org/10.1364/UP.2002.TuE7

Adaptive Optimization of High Order Harmonic Generation In a Free Propagation Geometry

David Reitze, Frederick Weihe, Sophie Kazamias, Denis Douillet, Genevieve Mullot, Fredericka Auge, Olivier Albert, Jean Paul Chambaret, Daniele Hulin, and Philippe Balcou

International Conference on Ultrafast Phenomena 2002

Vancouver Canada
ISBN: 1-55752-703-2

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Poster Session: 2 (TuE)

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D. Reitze, F. Weihe, S. Kazamias, D. Douillet, G. Mullot, F. Auge, O. Albert, J. P. Chambaret, D. Hulin, and P. Balcou, "Adaptive Optimization of High Order Harmonic Generation In a Free Propagation Geometry," in The Thirteenth International Conference on Ultrafast Phenomena, 2002 OSA Technical Digest Series (Optica Publishing Group, 2002), paper TuE7.

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Abstract

Adaptive femtosecond pulse shaping has become a powerful tool for optimizing the characteristics of ultrafast pulses [1,2] or ultrafast laser-matter interactions [3]. Recently, it has been shown in high order harmonic generation that specific harmonic orders near the cutoff can be significantly enhanced by optimizing the spectral phase of the driving pulse via adaptive optimization [4]. These experiments were conducted in a waveguide geometry using a hollow core fiber. Nonetheless, it is interesting to consider if adaptive learning can be effective for high order harmonic generation in a free propagation geometry. Here, we present results of experiments that demonstrate that harmonic emission can be tuned more effectively using adaptive optimization than via simple pulse chirping.

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