M
Marc J. J. Vrakking
Researcher at Fundamental Research on Matter Institute for Atomic and Molecular Physics
Publications - 280
Citations - 9373
Marc J. J. Vrakking is an academic researcher from Fundamental Research on Matter Institute for Atomic and Molecular Physics. The author has contributed to research in topics: Ionization & Attosecond. The author has an hindex of 45, co-authored 267 publications receiving 8129 citations. Previous affiliations of Marc J. J. Vrakking include University of Rostock & VU University Amsterdam.
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Journal ArticleDOI
Attosecond real-time observation of electron tunnelling in atoms
M. Uiberacker,Thorsten Uphues,Martin Schultze,Aart J. Verhoef,Vladislav S. Yakovlev,Matthias F. Kling,Jens Rauschenberger,Nikolay M. Kabachnik,Nikolay M. Kabachnik,Hartmut Schröder,Matthias Lezius,Karl L. Kompa,H. G. Muller,Marc J. J. Vrakking,Stefan Hendel,Ulf Kleineberg,Ulrich Heinzmann,Markus Drescher,Ferenc Krausz +18 more
TL;DR: The real-time observation of this most elementary step in strong-field interactions: light-induced electron tunnelling is reported, and the process is found to deplete atomic bound states in sharp steps lasting several hundred attoseconds, suggesting a new technique, attose Cond Tunnelling, for probing short-lived, transient states of atoms or molecules with high temporal resolution.
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Attosecond molecular dynamics: fact or fiction?
TL;DR: The role of electronic coherence and coupling of the electronic and nuclear degrees of freedom in high-harmonic spectroscopy and in the first attosecond pump-probe experiments on molecular systems is discussed in this paper.
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Attosecond Electron Dynamics
TL;DR: Attosecond science is coming of age and presently is reaching a level of maturity and sophistication that allows detailed investigations of the role of multielectron dynamics in physics and chemistry.
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An iterative procedure for the inversion of two-dimensional ion/photoelectron imaging experiments
TL;DR: In this paper, an iterative method for the extraction of velocity and angular distributions from two-dimensional (2D) ion/photoelectron imaging experiments is presented, which is based on the close relationship which exists between the initial 3D angular and velocity distribution and the measured 2d angular and radial distributions.
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Roadmap of ultrafast x-ray atomic and molecular physics
Linda Young,Linda Young,Kiyoshi Ueda,Markus Gühr,Markus Gühr,Philip H. Bucksbaum,Philip H. Bucksbaum,Marc Simon,Shaul Mukamel,Nina Rohringer,Kevin C. Prince,Claudio Masciovecchio,Michael Meyer,Artem Rudenko,Daniel Rolles,Christoph Bostedt,Matthias Fuchs,Matthias Fuchs,David A. Reis,Robin Santra,Henry C. Kapteyn,Henry C. Kapteyn,Margaret M. Murnane,Margaret M. Murnane,Heide Ibrahim,François Légaré,Marc J. J. Vrakking,M. Isinger,David Kroon,Mathieu Gisselbrecht,Anne L'Huillier,Hans Jakob Wörner,Stephen R. Leone +32 more
TL;DR: In this paper, the authors present a roadmap for the development of high harmonic generation (HHG) based x-ray free-electron (XFEL) and table-top sources.