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Strong-field single ionization and double ionization of two diatomic molecules, O₂ and N₂, are studied and compared to Xe and Ar, using an intense ultrashort pulse Ti: sapphire laser in the 210^13 to 810^14W/cm^2 intensity range. N₂ behaves like a structureless atom for both single and double ionization. The recently reported suppression of the O₂^+ ion yield compared to Xe^+ is confirmed in our experiment, but we show that the suppression is not due to dissociative recombination. Rather, we conclude that the ionization rate of O₂ is below that predicted by tunneling ionization. We extend the study to the double ionization of O₂ and find a distinctly reduced nonsequential double-ionization rate. We find evidence that electronic structure influences strong-field tunneling ionization in molecules.
Guo et al. (Tue,) studied this question.
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