Laser-subcycle control of electronic excitation across system boundaries

We experimentally studied the three-body fragmentation dynamics of a noble gas cluster (ArKr2) upon its multiple ionization by an intense femtosecond laser pulse. The three-dimensional momentum vectors of correlated fragmental ions were measured in coincidence for each fragmentation event. A novel comet-like structure was observed in the Newton diagram of the quadruple-ionization-induced breakup channel of ArKr24+ → Ar+ + Kr+ + Kr2+. The concentrated head part of the structure mainly originates from the direct Coulomb explosion process, while the broader tail part of the structure stems from a three-body fragmentation process involving electron transfer between the distant Kr+ and Kr2+ ion fragments. Due to the field-driven electron transfer, the Coulomb repulsive force of the Kr2+ and Kr+ ions with respect to the Ar+ ion undergoes exchange, leading to the changes of the ion emission geometry in the Newton plot. An energy sharing among the separating Kr2+ and Kr+ entities was observed. Our study indicates a promising approach for investigating the strong-field-driven intersystem electron transfer dynamics by using Coulomb explosion imaging of an isosceles triangle van der Waals cluster system.

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Laser-subcycle control of electronic excitation across system boundaries

Cited by 2 publications

References 81 publications

Frustrated tunneling ionization: building a bridge between the internal and macroscopic states of an atom

Frustrated tunneling ionization: building a bridge between the internal and macroscopic states of an atom

Electron transfer in strong-field three-body fragmentation of ArKr2 trimers

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