Electron-impact ionization of the C atom
Sh. A. Abdel-Naby, C. P. Ballance, T. G. Lee, S. D. Loch, and M. S. Pindzola
Accepted
Time-dependent close-coupling (TDCC), R-matrix with pseudo-states (RMPS), and time-independent distorted-wave (TIDW) methods are used to calculate electron-impact ionization cross sections for the carbon atom. The TDCC and RMPS results for the 1s22s22p2 ground configuration are in reasonable agreement with the available experimental measurements, while the TIDW results are 30 % higher. Ionization of the 1s22s2p3 excited configuration are performed using the TDCC, RMPS, and TIDW methods. Ionization of the 1s22s22p3l (l=0-2) excited configurations are performed using the TDCC and TIDW methods. The ionization cross sections for the excited configurations are much larger than for the ground state. For example, the peak cross section for the 1s22s22p3p excited configuration is an order of magnitude larger than the peak cross section for the 1s22s22p2 ground configuration. The TDCC results are again found to be substantially lower than the TIDW results. The ionization cross section results will permit the generation of more accurate generalized collisional-radiative (GCR) ionization coefficients needed for modeling of moderately dense carbon plasmas.