Add to ORKGIn this work we present differential chemical abundances of neutron-capture elements (Z >30) in solar twins. We have obtained high resolution (R = 60,000) and high S/N ( >100) spectra of solar twins in the ultraviolet region (310-400nm) with the UVES spectrograph at the VLT/ESO. In the same configuration we also observed that the Sun, that is our reference for the differential analysis, thus obtaining results with high accuracy and precision. In the ultraviolet there is a large number of atomic transitions of heavy elements, which allows the detailed study of the r and s processes. Our sample of solar twins covers a wide range of ages, so it will be possible to study the temporal evolution of the neutron capture elements
The abundance pattern of s-process nuclides confirms severe mass separation in the Sun and in the pa...
A large dataset of ~2800 spectra extracted from the ELODIE archive was analysed in order to find sol...
Chemical compositions of stars provide us with unique information about their nucleosynthesis proces...
In this work we present differential chemical abundances\ud of neutron-capture elements (Z >30) in s...
The physical processes driving chemical evolution in the Milky Way can be probed using the distribut...
Important insights into the formation and evolution of the Galactic disc(s) are contained in the che...
We derive the abundance of 19 elements in a sample of 64 stars with fundamental parameters very simi...
Context. High-precision determinations of abundances of elements in the atmospheres of the Sun and s...
Context. HIP 100963 was one of the first solar twins identified. Although some high-precis...
We study with unprecedented detail the chemical composition and stellar parameters of the solar twin...
Aims. A previous study of correlations between element abundances and ages of solar twin stars in th...
We use a large set of high S/N, high resolution spectra of 19 stars with -2.8 <[Fe/H]< 0 to study th...
We present detailed chemical abundance analyses of the oldest solar twin HIP 102152, with a derived ...
A large dataset of ~2800 spectra extracted from the ELODIE archive was analysed in order to find sol...
We present the first detailed chemical abundance analysis of the old 8.2 Gyr solar twin, HIP 102152....
The abundance pattern of s-process nuclides confirms severe mass separation in the Sun and in the pa...
A large dataset of ~2800 spectra extracted from the ELODIE archive was analysed in order to find sol...
Chemical compositions of stars provide us with unique information about their nucleosynthesis proces...
In this work we present differential chemical abundances\ud of neutron-capture elements (Z >30) in s...
The physical processes driving chemical evolution in the Milky Way can be probed using the distribut...
Important insights into the formation and evolution of the Galactic disc(s) are contained in the che...
We derive the abundance of 19 elements in a sample of 64 stars with fundamental parameters very simi...
Context. High-precision determinations of abundances of elements in the atmospheres of the Sun and s...
Context. HIP 100963 was one of the first solar twins identified. Although some high-precis...
We study with unprecedented detail the chemical composition and stellar parameters of the solar twin...
Aims. A previous study of correlations between element abundances and ages of solar twin stars in th...
We use a large set of high S/N, high resolution spectra of 19 stars with -2.8 <[Fe/H]< 0 to study th...
We present detailed chemical abundance analyses of the oldest solar twin HIP 102152, with a derived ...
A large dataset of ~2800 spectra extracted from the ELODIE archive was analysed in order to find sol...
We present the first detailed chemical abundance analysis of the old 8.2 Gyr solar twin, HIP 102152....
The abundance pattern of s-process nuclides confirms severe mass separation in the Sun and in the pa...
A large dataset of ~2800 spectra extracted from the ELODIE archive was analysed in order to find sol...
Chemical compositions of stars provide us with unique information about their nucleosynthesis proces...