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Ultrafast temporal evolution of interatomic Coulombic decay in NeKr dimers.

Florian TrinterTsveta MitevaM WellerA HartungM RichterJ B WilliamsA GattonB GaireJ SartorA L LandersB BerryItzik Ben-ItzhakN SisouratV StumpfK GokhbergR DörnerT JahnkeThorsten Weber
Published in: Chemical science (2021)
We investigate interatomic Coulombic decay in NeKr dimers after neon inner-valence photoionization [Ne + (2s -1 )] using a synchrotron light source. We measure with high energy resolution the two singly charged ions of the Coulomb-exploding dimer dication and the photoelectron in coincidence. By carefully tracing the post-collision interaction between the photoelectron and the emitted ICD electron we are able to probe the temporal evolution of the state as it decays. Although the ionizing light pulses are 80 picoseconds long, we determine the lifetime of the intermediate dimer cation state and visualize the contraction of the nuclear structure on the femtosecond time scale.
Keyphrases
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