Physics – Atomic Physics
Scientific paper
Feb 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999ycat..41350159m&link_type=abstract
VizieR On-line Data Catalog: J/A+AS/135/159. Originally published in: 1999A&AS..135..159M
Physics
Atomic Physics
Atomic Physics
Scientific paper
Radiative decay rates are computed with the atomic structure code superstructure for the 2s2p3 5So2 - 2s22p2 3P1, 3P2 and 1D2 intercombination transitions of the carbon isoelectronic sequence (6<=Z<=28). Contributions from configuration interaction and relativistic corrections are carefully studied, in particular the spin-spin interaction that is shown to be of considerable importance for low Z. By extensive comparisons with other theoretical datasets and measurements of the 5So2 radiative lifetime and the B=A(5So2-3P2)/A(5So2-3P1) branching ratio, we are able to assign accuracy ratings to the present transition probabilities. The transitions to the ground term are believed to be accurate to better than 10% whereas the smaller A-values belonging to transitions to the 1D2 are not expected to be accurate to more than 20%.
***************************************************************************** * * * The author(s) did not provide their tables as announced in the paper. * * Only some of the published tables are here. * * * *****************************************************************************
(3 data files).
Mendoza Carolina
Storey Peter J.
Zeippen Claude J.
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