Add to ORKGWe present high resolution (R ˜45,000-70,000) and very high S/N (˜1,000) spectroscopy of the Li I 6707 Å region in each component of the binary solar twins 16 Cyg A and B, the solar analog alpha Cen A, and alpha Cen B. Spectra of 16 Cyg were obtained with the University of Hawai\u27i 2.2-m, McDonald Observatory 2.1-m, and Keck 10-m telescopes and have been independently reduced. Comparison of spectral synthesis and the 16 Cyg data, and corresponding similarly obtained solar data, yields 7Li abundances which show excellent concordance between the various data sets. Despite differing in Teff by only 35-40 K, the Li abundances of 16 Cyg A and B differ by a factor of \u3e=4.5. The solar photospheric abundance is intermediate to the two values. ...
Context. Lithium has long been recognized as a powerful tool for investigating the internal mixing o...
Context. Lithium abundances in open clusters are a very effective probe of mixing processes, and the...
Reproduced with permission from Astronomy & Astrophysics, © ESO 2018.Context. We report results from...
We present high-resolution spectroscopic observations of the \ion{Li}{1} resonance line in a sample ...
This work aims to examine in detail the depletion of lithium in solar twins to better constrain stel...
Aims. We want to determine the lithium abundances of solar twin stars as a function of ste...
International audienceTo clarify the reasons for the dispersion of Li in the atmosphere of solar typ...
Context. The standard solar model fails to predict the very low lithium abundance in the Sun, which ...
This work aims to examine in detail the depletion of lithium in solar twins to better constrain ste...
We present detailed chemical abundance analyses of the oldest solar twin HIP 102152, with a derived ...
Context. We report results from lithium abundance determinations using high resolution spectral anal...
Aims. We want to study the effects of the formation of planets and planetary systems on the atmosphe...
We present the first detailed chemical abundance analysis of the old 8.2 Gyr solar twin, HIP 102152....
International audienceWe derive the 3D-NLTE lithium abundance in the solar photosphere from the Lii ...
We have analyzed the lithium abundance in the atmospheres of 20 stars that are solar analogues based...
Context. Lithium has long been recognized as a powerful tool for investigating the internal mixing o...
Context. Lithium abundances in open clusters are a very effective probe of mixing processes, and the...
Reproduced with permission from Astronomy & Astrophysics, © ESO 2018.Context. We report results from...
We present high-resolution spectroscopic observations of the \ion{Li}{1} resonance line in a sample ...
This work aims to examine in detail the depletion of lithium in solar twins to better constrain stel...
Aims. We want to determine the lithium abundances of solar twin stars as a function of ste...
International audienceTo clarify the reasons for the dispersion of Li in the atmosphere of solar typ...
Context. The standard solar model fails to predict the very low lithium abundance in the Sun, which ...
This work aims to examine in detail the depletion of lithium in solar twins to better constrain ste...
We present detailed chemical abundance analyses of the oldest solar twin HIP 102152, with a derived ...
Context. We report results from lithium abundance determinations using high resolution spectral anal...
Aims. We want to study the effects of the formation of planets and planetary systems on the atmosphe...
We present the first detailed chemical abundance analysis of the old 8.2 Gyr solar twin, HIP 102152....
International audienceWe derive the 3D-NLTE lithium abundance in the solar photosphere from the Lii ...
We have analyzed the lithium abundance in the atmospheres of 20 stars that are solar analogues based...
Context. Lithium has long been recognized as a powerful tool for investigating the internal mixing o...
Context. Lithium abundances in open clusters are a very effective probe of mixing processes, and the...
Reproduced with permission from Astronomy & Astrophysics, © ESO 2018.Context. We report results from...