Angle-resolved RABBITT: theory and numerics. Hockett, P. Journal of Physics B: Atomic, Molecular and Optical Physics, 50(15):154002, 8, 2017.
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© 2017 IOP Publishing Ltd. Angle-resolved (AR) RABBITT measurements offer a high information content measurement scheme, due to the presence of multiple, interfering, ionization channels combined with a phase-sensitive observable in the form of angle and time-resolved photoelectron interferograms. In order to explore the characteristics and potentials of AR-RABBITT, a perturbative 2-photon model is developed; based on this model, example AR-RABBITT results are computed for model and real systems, for a range of RABBITT schemes. These results indicate some of the phenomena to be expected in AR-RABBITT measurements, and suggest various applications of the technique in photoionization metrology.
@article{
 title = {Angle-resolved RABBITT: theory and numerics},
 type = {article},
 year = {2017},
 keywords = {angle-resolved,atto,photoelectron spectroscopy,photoionization,ultrafast},
 pages = {154002},
 volume = {50},
 websites = {http://stacks.iop.org/0953-4075/50/i=15/a=154002?key=crossref.5d6778123ace5e660772ac4533b801a0},
 month = {8},
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 abstract = {© 2017 IOP Publishing Ltd. Angle-resolved (AR) RABBITT measurements offer a high information content measurement scheme, due to the presence of multiple, interfering, ionization channels combined with a phase-sensitive observable in the form of angle and time-resolved photoelectron interferograms. In order to explore the characteristics and potentials of AR-RABBITT, a perturbative 2-photon model is developed; based on this model, example AR-RABBITT results are computed for model and real systems, for a range of RABBITT schemes. These results indicate some of the phenomena to be expected in AR-RABBITT measurements, and suggest various applications of the technique in photoionization metrology.},
 bibtype = {article},
 author = {Hockett, Paul},
 doi = {10.1088/1361-6455/aa7887},
 journal = {Journal of Physics B: Atomic, Molecular and Optical Physics},
 number = {15}
}

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