Attosecond control in photoionization of hydrogen molecules

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DOI http://dx.doi.org/10.1103/PhysRevLett.107.043002
Reference F. Kelkensberg, W. Siu, J.F. Pérez-Torres, Felipe Morales, G. Gademann, A. Rouzée, P. Johnsson, M. Lucchini, F. Calegari, J.L. Sanz-Vicario, F. Martín and M.J.J. Vrakking, Attosecond control in photoionization of hydrogen molecules, Phys.Rev.Lett. 107, (4, Article number: 43002), 1-4 (2011)

We report experiments where hydrogen molecules were dissociatively ionized by an attosecond pulse train in the presence of a near-infrared field. Fragment ion yields from distinguishable ionization channels oscillate with a period that is half the optical cycle of the IR field. For molecules aligned parallel to the laser polarization axis, the oscillations are reproduced in two-electron quantum simulations, and can be explained in terms of an interference between ionization pathways that involve different harmonic orders and a laser-induced coupling between the 1sσg and 2pσu states of the molecular ion. This leads to a situation where the ionization probability is sensitive to the instantaneous polarization of the molecule by the IR electric field and demonstrates that we have probed the IR-induced electron dynamics with attosecond pulses.