Storage ring cross section measurements for electron impact ionization of Fe⁸⁺: Data
- Storage ring cross section measurements for electron impact ionization of Fe⁸⁺: Data
- Hahn, Michael
Pindzola, M. S.
Savin, Daniel Wolf
- Data (information)
- Astrophysics Laboratory
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- Corresponding publication: Storage Ring Cross Section Measurements for Electron Impact Ionization of Fe⁸⁺. M. Hahn, A. Becker, D. Berhnhardt, M. Grieser, C. Krantz, M. Lestinsky, A. Müller, O. Novotný, M.S. Pindzola, R. Repnow, S. Schippers, K. Spruck, A. Wolf, and D. W. Savin. Journal of Physics B: Atomic, Molecular and Optical Physics 49, 8 (2016). View in Academic Commons at https://doi.org/10.7916/D8BV7V33
- We have measured electron impact ionization (EII) for Fe⁸⁺ forming Fe⁹⁺ from below the ionization threshold to 1200 eV. These measurements were carried out at the TSR heavy ion storage ring. The objective of using a storage ring is to store the ion beam initially so that metastable levels decay, thereby allowing for measurements on a well-defined ground-level ion beam. In this case, however, some metastable levels were too long lived to be removed. We discuss several methods for quantifying the metastable fraction, which we estimate to be ~30%–40%. Although metastables remain problematic, the present storage ring work improves upon other experimental geometries by limiting the metastable contamination to only a few long-lived excited levels. We discuss some future prospects for obtaining improved measurements of Fe⁸⁺ and other ions with long-lived metastable levels.
In the attached file, the first column is collision energy in eV, the second column is cross section in cm^-2, and the last column gives the statistical uncertainty.
- Storage rings
Electron impact ionization
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- Suggested Citation:
- Michael Hahn, A. Becker, D. Bernhardt, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, Oldrich Novotny, M. S. Pindzola, R. Repnow, S. Schippers, K. Spruck, A. Wolf, Daniel Wolf Savin, 2016, Storage ring cross section measurements for electron impact ionization of Fe⁸⁺: Data, Columbia University Academic Commons, https://doi.org/10.7916/D8C83SRQ.