Absolute oscillator strengths for lines of neutral cobalt between 2276 A and 9357 A and a redetermination of the solar cobalt abundance

Abstract

view Abstract Citations (71) References (38) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Absolute oscillator strengths for lines of neutral cobalt between 2276 A and 9357 A and a redetermination of the solar cobalt abundance Cardon, B. L. ; Smith, P. L. ; Scalo, J. M. ; Testerman, L. ; Whaling, W. Abstract Absolute oscillator strengths of neutral cobalt have been determined from hook measurements for 159 transitions and emission intensity measurements for 314 transitions between 2276 Å and 9357 Å. Ninety-five of these transitions were subjected to the procedure developed by Cardon, Smith, and Whaling which fits combined absorption and emission data to a set of consistent, optimum, relative oscillator strengths and upper level lifetimes. These relative values were normalized to the radiative lifetimes of Figger et al. and of Marek and Vogt obtained by pulsed laser fluorescence. Absolute oscillator strengths for 362 transitions and 36 lifetimes were determined. Typical uncertainties in the reported absolute oscillator strengths are ±15-25% (2/3 confidence level). Equivalent widths were obtained for nineteen solar cobalt lines with the McMath solar telescope at Kitt Peak National Observatory. These widths were used to redetermine the solar cobalt abundance, assuming the photospheric model of Holweger and a microturbulence velocity of 1.0 km s-1. The adopted solar cobalt abundance is the mean value log Co/NH> + 12 = 4.92 ± 0.08 (±19%), from the 19 cobalt transitions. This value is in excellent agreement with the solar values of Ross and Aller, of Biemont, and of Holweger and that of Cameron for carbonaceous chondrites. Publication: The Astrophysical Journal Pub Date: September 1982 DOI: 10.1086/160264 Bibcode: 1982ApJ...260..395C Keywords: Abundance; Cobalt; Electron Oscillations; Solar Spectra; Spectral Line Width; Absorption Spectra; Electron Transitions; Emission Spectra; Metallic Stars; Transition Probabilities; Solar Physics full text sources ADS |