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  • Superelastic electron scattering from laser excited rubidium at 20 eV incident energy

    Author(s)
    Hall, BV
    Shen, Y
    Murray, AJ
    Standage, MC
    MacGillivray, WR
    Bray, I
    Griffith University Author(s)
    MacGillivray, William R.
    Standage, Max C.
    Year published
    2004
    Metadata
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    Abstract
    Superelastic electron scattering measurements are presented from rubidium atoms excited by laser radiation to the 52P states at around 780 nm. The incident energy of the electrons was 18.4 eV corresponding to 20 eV incident electrons for the excitation process 52S-52P. The measurements were conducted over a range of scattering angles from 5࠴hrough to 125஠A complete set of atomic collision parameters for the interaction process is presented together with the associated pseudo-Stokes parameters obtained from the measurements. A comparison with three sophisticated theoretical models indicates that none of the models completely ...
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    Superelastic electron scattering measurements are presented from rubidium atoms excited by laser radiation to the 52P states at around 780 nm. The incident energy of the electrons was 18.4 eV corresponding to 20 eV incident electrons for the excitation process 52S-52P. The measurements were conducted over a range of scattering angles from 5࠴hrough to 125஠A complete set of atomic collision parameters for the interaction process is presented together with the associated pseudo-Stokes parameters obtained from the measurements. A comparison with three sophisticated theoretical models indicates that none of the models completely describes the interaction process at this energy, and that further experimental and theoretical work is needed.
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    Journal Title
    Journal of Physics B: Atomic, Molecular and Optical Physics
    Volume
    37
    Issue
    5
    DOI
    https://doi.org/10.1088/0953-4075/37/5/014
    Subject
    Atomic, molecular and optical physics
    Theoretical and computational chemistry
    Publication URI
    http://hdl.handle.net/10072/27242
    Collection
    • Journal articles

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