Abstract
New branching fraction (BF) measurements based primarily on data from a cross-dispersed echelle spectrometer are reported for 84 lines of Co ii. The BFs for 82 lines are converted to absolute atomic transition probabilities using radiative lifetimes from laser-induced fluorescence (LIF) measurements on 19 upper levels of the lines. A lifetime of 3.3(2) ns for the z5D0 level is used based on LIF measurements for lifetimes of the four other levels in the z5D term. Twelve of the eighty-four lines are weak transitions connecting to the ground and low metastable levels of Co+. Another 46 lines are strong transitions connecting to the ground and low metastable levels of Co+. For these lines, log(gf) values were measured in earlier studies and, with a few exceptions, are confirmed in this study. Such lines, if unblended in stellar spectra, have the potential to yield Co abundance values unaffected by any breakdown of the local thermodynamic equilibrium approximation in stellar photospheres because the ground and low metastable levels of Co+ are the primary population reservoirs of Co in the photospheres of interest. Weak lines, if unblended, are useful in photospheres with high Co abundance, and strong lines are useful in metal-poor photospheres. New hyperfine structure A constants for 28 levels of ionized Co from least-squares fits to Fourier transform spectra line profiles are reported. These laboratory data are applied to re-determine the Co abundance in the metal-poor halo star HD 84937. BFs and transition probabilities for 19 lines are reported for the first time.
Highlights
The relative radiometric calibration of the echelle spectrometer is from D2 lamp spectra recorded immediately after each hollow cathode discharge (HCD) CCD frame
Bergemann et al (2010) mentioned that “A large-scale study of Co II hyperfine structure (HFS) is ongoing at Imperial College, and here we report a detailed investigation of A factors for the 3d7 (4P)4s a5P3,2,1 levels and for three of the four 3d7(4F)4p z5Do4,3,1 levels, with immediate application in this work.”
New branching fractions (BFs) and log(gf) measurements are reported for 84 lines of Co II including 12 weak Highly Reliable Lines (HRLs)
Summary
Efforts are underway to map the relative Fe-group elemental abundances in metal-poor (MP) stars. Barklem (2016) and Barklem et al (2005, 2011) have made important progress on such cross sections and rate constants Charge exchange reactions such as H─ + Fe+ ↔ H + Fe* are expected to equilibrate highly excited levels of neutral Fe* with the ground and low metastable levels of Fe+. Ionized Fe-group species have strongly exothermic charge exchange reaction channels with neutral H atoms Rates constants for such reactions tend to be large due to the lack of potential curve barriers. If a photosphere is composed mostly of H atoms and the rate constants are large, densities of multiply ionized Fe-group species are maintained at low LTE values. For Fe-group abundance measurements on sufficiently MP stars it is possible to determine reliable transition data for UV lines that are dominant branches from upper levels with laser-induced-fluorescence (LIF) lifetime measurements.
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