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A: Atomphysik
A 15: Poster 2
A 15.9: Poster
Donnerstag, 25. März 2004, 14:00–16:00, Schellingstr. 3
Two–photon ionization of heavy atomic systems — •Andrey Surzhykov, Peter Koval, and Stephan Fritzsche — Universität Kassel, D–34132 Kassel, Germany
Multi–photon ionization processes have been studied in great detail during
the last decade, both experimentally and theoretically. Until now, however,
most of these studies remained focused on the ionization of outer–shell
electrons because powerful laser sources in the EUV and X-ray region have
not been available any way. The development of new synchrotron light
sources have made it more likely to investigate the few–photon
excitation/
ionization also for heavy atoms and ions like highly charged ions or atomic
inner–shells [1].
In this contribution, we explore theoretically the two–photon ionization
of heavy atoms. To understand the relativistic phenomena in two–photon
ionization, we investigate hydrogen-like ions in the 2s–metastable
state.
Although, in the total cross sections, the relativistic behavior
shows up only in a splitting of resonances and an overall
decrease, the electron angular distribution may change
qualitatively,
in dependence on the photon energy. To reveal, in addition, the
many–electron
effects, the two–photon ionization of helium atom and argon K–
and
L–shells is considered. An interesting, unusual dependence of
of the L–shell cross section on the polarization
of light makes this shell a promising candidate for an experimental study
of two-photon ionization.
[1] M. A. Kornberg, A. L. Godunov, S. I. Ortiz, D. L. Ederer, J. H. McGuire and L. Young, Journal of Synchrotron Radiation 9 (2002) 298.