ATOMIC DATA FROM THE IRON PROJECT .22. RADIATIVE RATES FOR FORBIDDEN TRANSITIONS WITHIN THE GROUND CONFIGURATION OF IONS IN THE CARBON AND OXYGEN ISOELECTRONIC-SEQUENCES
Me. Galavis et al., ATOMIC DATA FROM THE IRON PROJECT .22. RADIATIVE RATES FOR FORBIDDEN TRANSITIONS WITHIN THE GROUND CONFIGURATION OF IONS IN THE CARBON AND OXYGEN ISOELECTRONIC-SEQUENCES, Astronomy & Astrophysics. Supplement series, 123(1), 1997, pp. 159-171
As part of the IRON Project, radiative rates have been calculated for
the forbidden transitions within the ground configuration of atoms and
ions in the carbon (2s(2)2p(2)) and oxygen (2s(2)2p(4)) isoelectronic
sequences for Z less than or equal to 28. The atomic structure code S
UPERSTRUCTURE was used, which allows for configuration interaction, re
lativistic effects and semi-empirical term energy corrections. Compari
sons are made with previous theoretical datasets for the same sequence
s. It is shown once again that, to obtain reliable transition probabil
ities, in particular those of the electric quadrupole type, it is esse
ntial to use accurate and consistent experimental transition wavelengt
hs. For the C and O sequences such data are fortunately available from
the work of Edlen (1983, 1985). The general accuracy of the present p
robabilities is rated to be within 10%, with the exception of some ele
ctric quadrupole transitions in low-Z ions whose radiative rates are s
mall with an accuracy not better than +/-50%.