Total and partial recombination cross sections for F6+

MITNIK, D. M.; PINDZOLA, M. S.; BADNELL, N. R.

PHYSICAL REVIEW A - ATOMIC, MOLECULAR AND OPTICAL PHYSICS

AIP, The American Physical Society

Año: 1999 vol. 59 p. 3592 - 3600

1050-2947

Total and partial recombination cross sections for F6+ are calculated using close-coupling and distorted-wave theory. For total cross sections, close-coupling and distorted-wave results, which include interference between the radiative and dielectronic pathways, are found to be in good agreement with distorted-wave results based on a sum of independent processes. Total cross sections near zero energy are dominated by contributions from low-energy dielectronic recombination resonances. For partial cross sections, the close-coupling and distorted-wave theories predict strong interference for recombination into the final recombined ground state 1s22s2 1S0 of F5+, but only weak interference for recombination into the levels of the 1s22s2p configuration.