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Jochim, Bethany; Zohrabi, M.; Gaire, B.; Anis, F.; Uhlíková, Tereza; Carnes, K. D.; Wells, E.; Esry, B. D.; Ben-Itzhak, I. (, Physical Review A)
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Jochim, Bethany; Zohrabi, M.; Gaire, B.; Uhlíková, Tereza; Carnes, K. D.; Wells, E.; Esry, B. D.; Ben-Itzhak, I. (, Physical Review A)
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Townsend, Tiana; Schwartz, Charles J.; Jochim, Bethany; P., Kanaka Raju; Severt, T.; Iwamoto, Naoki; Napierala, J. L.; Feizollah, Peyman; Tegegn, S. N.; Solomon, A.; et al (, Frontiers in Physics)null (Ed.)An adaptive learning algorithm coupled with 3D momentum-based feedback is used to identify intense laser pulse shapes that control H 3 + formation from ethane. Specifically, we controlled the ratio of D 2 H + to D 3 + produced from the D 3 C-CH 3 isotopologue of ethane, which selects between trihydrogen cations formed from atoms on one or both sides of ethane. We are able to modify the D 2 H + : D 3 + ratio by a factor of up to three. In addition, two-dimensional scans of linear chirp and third-order dispersion are conducted for a few fourth-order dispersion values while the D 2 H + and D 3 + production rates are monitored. The optimized pulse is observed to influence the yield, kinetic energy release, and angular distribution of the D 2 H + ions while the D 3 + ion dynamics remain relatively stable. We subsequently conducted COLTRIMS experiments on C 2 D 6 to complement the velocity map imaging data obtained during the control experiments and measured the branching ratio of two-body double ionization. Two-body D 3 + + C 2 D 3 + is the dominant final channel containing D 3 + ions, although the three-body D + D 3 + + C 2 D 2 + final state is also observed.more » « less
