𝔖 Bobbio Scriptorium
✦   LIBER   ✦

The solar lithium abundance

✍ Scribed by James W. Brault; Edith A. Müller

Publisher
Springer
Year
1975
Tongue
English
Weight
485 KB
Volume
41
Category
Article
ISSN
0038-0938

No coin nor oath required. For personal study only.

✦ Synopsis

A detailed observational study of the solar photospheric lithium feature has been carried out with emphasis on center-limb observations, continuum location, possible effects of telluric lines, effects of blending by atomic and molecular lines, and decomposition of the solar spectrum around 26707 A.

📜 SIMILAR VOLUMES

The solar lithium abundance
The solar lithium abundance
✍ Edith A Müller; Eric Peytremann; Ramiro Reza 📂 Article 📅 1975 🏛 Springer 🌐 English ⚖ 739 KB

The solar abundance of lithium and its isotopic abundance ratio were determined by comparing synthetic spectra with the high quality center-to-limb spectra of the solar lithium feature presented in Paper I by Brault and Mtiller (1974). The following possible effects on the abundance result were cons

The solar hafnium abundance
The solar hafnium abundance
✍ T. Andersen; P. Petersen; Ö. Hauge 📂 Article 📅 1976 🏛 Springer 🌐 English ⚖ 233 KB
The solar niobium abundance
The solar niobium abundance
✍ Ö. Hauge; Naked H. Youssef 📂 Article 📅 1975 🏛 Springer 🌐 English ⚖ 138 KB
The solar manganese abundance
The solar manganese abundance
✍ Thomas E. Margrave 📂 Article 📅 1972 🏛 Springer 🌐 English ⚖ 266 KB

A preliminary solar Mn abundance of logN(Mn) = 5.41 (logN(H) = 12.00) is derived on the basis of fitting theoretical line profiles which include hyperfine structure (HFS) broadening to the profiles of the 225394.7, 5432.6, and 5537.8 lines of Mn observed at the center of the solar disk with the doub

The solar abundance of germanium
The solar abundance of germanium
✍ John E. Ross; Lawrence H. Aller 📂 Article 📅 1974 🏛 Springer 🌐 English ⚖ 294 KB

The solar abundance of germanium, deduced from two relatively unblended Ger lines, 23039.06 and 23269.50 is found to be logN(Ge) = 3.50 • 0.05 on the scale logN(H) = 12.00 in good agreement with Cameron's recent solar system abundance logN(Ge)=3.56 (on assumption logN(Si) = 7.50).