Add to ORKGModels of the formation and early chemical evolution of our Galaxy are guided and constrained by our knowledge of abundances in globular cluster stars and halo field stars. The abundance patterns identified in halo and disk stars should be discernible in absorption lines of gas clouds in forming galaxies which are accidentally lying in front of background QSO's. Conversely, the ensemble of QSO absorption line systems (QSOALS) at each redshift may suggest a detailed model for the formation of our Galaxy that is testable using abundance patterns in halo stars
Based on a simple, but fairly successful, model of the chemical evolution of the Milky Way disk, we ...
© ESO 2017.Context. The chemical abundances of metal-poor halo stars are important to understanding ...
We are made of stardust in the sense that most atomic nuclei around us have been formed by stars. St...
We examine the chemical evolution of QSO broad-line gas by applying spectral synthesis and chemical ...
We determined C, N and alpha-element relative abundances in the gas surrounding six quasi-stellar ob...
Abstract. We determined C, N and α-element relative abundances in the gas surrounding six QSOs at an...
Abundance histories for QSO absorption line systems as a function of redshift are presented for all ...
Utilizing spectra from ground-based and Hubble Space Telescope observations, Korista et al. identifi...
This thesis explores the chemical signatures of galaxy formation and evolution using a software pack...
Context. The chemical abundances of metal-poor halo stars are important to understanding key aspects...
textIn studies of chemical abundances among a large sample of giant stars in the similarly-aged glo...
We present an analytical and phenomenological model for metal enrichment in halos based on hierarchi...
Metal-poor stars provide information on the characteristics and chemical evolution of the halo popul...
Context. The stellar halo provides precious information about the Galaxy in its early stages of evol...
Context. The study of globular clusters is one of the most powerful ways to learn about a galaxy's c...
Based on a simple, but fairly successful, model of the chemical evolution of the Milky Way disk, we ...
© ESO 2017.Context. The chemical abundances of metal-poor halo stars are important to understanding ...
We are made of stardust in the sense that most atomic nuclei around us have been formed by stars. St...
We examine the chemical evolution of QSO broad-line gas by applying spectral synthesis and chemical ...
We determined C, N and alpha-element relative abundances in the gas surrounding six quasi-stellar ob...
Abstract. We determined C, N and α-element relative abundances in the gas surrounding six QSOs at an...
Abundance histories for QSO absorption line systems as a function of redshift are presented for all ...
Utilizing spectra from ground-based and Hubble Space Telescope observations, Korista et al. identifi...
This thesis explores the chemical signatures of galaxy formation and evolution using a software pack...
Context. The chemical abundances of metal-poor halo stars are important to understanding key aspects...
textIn studies of chemical abundances among a large sample of giant stars in the similarly-aged glo...
We present an analytical and phenomenological model for metal enrichment in halos based on hierarchi...
Metal-poor stars provide information on the characteristics and chemical evolution of the halo popul...
Context. The stellar halo provides precious information about the Galaxy in its early stages of evol...
Context. The study of globular clusters is one of the most powerful ways to learn about a galaxy's c...
Based on a simple, but fairly successful, model of the chemical evolution of the Milky Way disk, we ...
© ESO 2017.Context. The chemical abundances of metal-poor halo stars are important to understanding ...
We are made of stardust in the sense that most atomic nuclei around us have been formed by stars. St...