Radiative recombination rate coefficients for highly-charged tungsten ions

Radiative recombination rate coefficients for highly-charged tungsten ions

Partial and total radiative recombination rate coefficients are presented for highly-charged ions of tungsten with closed shells, W 28 + , W 38 + , W 46 + , W 56 + , W 64 + , W 70 + , and W 72 + , as well as for the H-like ion W 73 + and the bare nucleus W 74 + . The temperature range 10 3 – 10 10 K...

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Bibliographic Details
Published in:Atomic data and nuclear data tables Vol. 96; no. 1; pp. 1 - 25
Main Authors: Trzhaskovskaya, M.B., Nikulin, V.K., Clark, R.E.H.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-01-2010
Subjects:
APPROXIMATIONS
ATOMIC AND MOLECULAR PHYSICS
BOLTZMANN STATISTICS
DIPOLES
ELECTRONS
MULTICHARGED IONS
PHOTOIONIZATION
RECOMBINATION
RELATIVISTIC RANGE
TUNGSTEN
TUNGSTEN IONS
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Summary:Partial and total radiative recombination rate coefficients are presented for highly-charged ions of tungsten with closed shells, W 28 + , W 38 + , W 46 + , W 56 + , W 64 + , W 70 + , and W 72 + , as well as for the H-like ion W 73 + and the bare nucleus W 74 + . The temperature range 10 3 – 10 10 K is considered. Calculations have been performed in the framework of the fully relativistic Dirac–Fock treatment of photoionization and radiative recombination processes taking into account all significant multipoles of the radiation field. We assess the influence of multipole effects on recombination rate coefficients as compared with the commonly used dipole approximation. For the first time, we show that the relativistic Maxwell–Boltzmann distribution of continuum electrons should be used at high temperature. This decreases the rate coefficient significantly compared to the nonrelativistic distribution.
ISSN:0092-640X
1090-2090
DOI:10.1016/j.adt.2009.08.004