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Collinear Generation of Ultrashort UV and XUV Pulses for Pump/probe Spectroscopy

Published online by Cambridge University Press:  31 January 2011

Elisabeth Bothschafter ,
Agustin Schiffrin ,
Ferenc Krausz ,
Ralph Ernstorfer  and
Reinhard Kienberger
Elisabeth Bothschafter
Affiliation:
elisabeth.bothschafter@mpq.mpg.de, Max-Planck-Institut für Quantenoptik, Garching, Germany
Agustin Schiffrin
Affiliation:
agustin.schiffrin@mpq.mpg.de, Max-Planck-Institut für Quantenoptik, Garching, Germany
Ferenc Krausz
Affiliation:
ferenc.krausz@mpq.mpg.de, Ludwig Maximilians Universität, Department für Physik, Garching, Germany
Ralph Ernstorfer
Affiliation:
ralph.ernstorfer@mpq.mpg.de, Technische Universität München, Lehrstuhl für Experimentalphysik I (E11), Garching, Germany
Reinhard Kienberger
Affiliation:
reinhard.kienberger@mpq.mpg.de, Technische Universität München, Lehrstuhl für Experimentalphysik I (E11), Garching, Germany
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Abstract

The collinear generation of sub-4 fs ultraviolet (UV) and attosecond extreme ultraviolet (XUV) pulses via subsequent third-harmonic and high harmonic generation in noble gases is demonstrated. The ultrashort coherent light bursts are produced by focusing a sub-1.5 cycle near-infrared/visible (NIR) laser pulse in two subsequent quasi-static noble gas targets. With this simple approach, inherently synchronized UV pulsed radiation with a photon energy of ˜5 eV and a pulse energy of ˜1 μJ, and XUV pulses with a cut-off photon energy of more than 120 eV and up to ˜107 XUV photons can be generated. This source represents a novel tool for future UV pump/XUV probe experiments with unprecedented time-resolution.

Keywords

opticallaserphotoemission
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1230: Symposium MM – Ultrafast Processes in Materials Science , 2009 , 1230-MM01-02
Copyright
Copyright © Materials Research Society 2010

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References

1 Uiberacker, M. Uphues, T. Schultze, M. Verhoef, A. J. Yakovlev, V. Kling, M. F. Rauschenberger, J. Kabachnik, N. M. Schroder, H. Lezius, M. Kompa, K. L. Muller, H. G. Vrakking, M. J. J. Hendel, S. Kleineberg, U. Heinzmann, U. Drescher, M. and Krausz, F. Nature 446, 627632 (2007).Google Scholar
2 Eckle, P. Smolarski, M. Schlup, P. Biegert, J. Staudte, A. Schoffler, M. Muller, H. G. Dorner, R. and Keller, U. Nature Physics 4, 565570 (2008).Google Scholar
3 Cavalieri, A. L. Goulielmakis, E. Horvath, B. Helml, W. Schultze, M. Fiess, M. Pervak, V. Veisz, L. Yakovlev, V. S. Uiberacker, M. Apolonski, A. Krausz, F. and Kienberger, R. New Journal of Physics 9(2007) 242.Google Scholar
4 Kienberger, R. Goulielmakis, E. Uiberacker, M. Baltuska, A. Yakovlev, V. Bammer, F. Scrinzi, A. Westerwalbesloh, T. Kleineberg, U. Heinzmann, U. Drescher, M. and Krausz, F. Nature 427, 817821 (2004).Google Scholar
5 Itatani, J. Quere, F. Yudin, G. L. Ivanov, M. Y. Krausz, F. and Corkum, P. B. Physical Review Letters 88, 173903 (2002).Google Scholar
6 Graf, U. Fiess, M. Schultze, M. Kienberger, R. Krausz, F. and Goulielmakis, E. Optics Express 16, 1895618963 (2008).Google Scholar
7 Salieres, P. Ditmire, T. Budil, K. S. Perry, M. D. and Lhuillier, A. Journal of Physics B-Atomic Molecular and Optical Physics 27, L217–L222 (1994).Google Scholar