Ultrafast dynamics of a molecular wave packet created by a strong 120-fs near-infrared (800 nm) laser pulse in iodine has been probed by synchronized 13.4-nm, 35-fs extreme-ultraviolet pulses delivered by the free-electron laser facility in Hamburg, FLASH. The kinetic energy release of the multiply charged ionic fragments reveals three essential steps of strong-field-induced molecular fragmentation dynamics: (i) The creation of I 22 + and (I 22 +) * molecular ions proceeds within (75 ± 15) fs full-width-at-half-maximum. (ii) With the onset of the I 22 + fragmentation the probability to lose a further electron within the same optical laser pulse rises with increasing I +-I + internuclear separation and reaches its maximum after ∼30 fs with respect to the pulse maximum. (iii) Charge separation into the I 22 +→I2 ++I dissociative channel with an asymmetric charge distribution is completed after (121 ± 22) fs. © 2012 American Physical Society.
CITATION STYLE
Krikunova, M., Maltezopoulos, T., Wessels, P., Schlie, M., Azima, A., Gaumnitz, T., … Drescher, M. (2012). Strong-field ionization of molecular iodine traced with XUV pulses from a free-electron laser. Physical Review A - Atomic, Molecular, and Optical Physics, 86(4). https://doi.org/10.1103/PhysRevA.86.043430
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