We introduce a stochastic halo formation model to compute the early chemical enrichment of the interstellar medium (ISM) of the halo. Contrary to 1-zone chemical evolution models, we are able to resolve local inhomogeneities in the ISM caused by single core-collapse supernovae. These inhomogeneities lead to different element abundance patterns in very metal-poor stars, which can be seen as scatter in the abundances of halo stars with metallicities [Fe/H] -2.0 the halo ISM is well mixed, showing an element abundance pattern integrated over the initial mass function. In the range -3.0 < [Fe/H] < -2.0 a continuous transition from the unmixed to the well mixed ISM occurs. For some elements (Si, Ca, Eu), the scatter in the element-to-iron ratio ...
© ESO 2017.Context. The chemical abundances of metal-poor halo stars are important to understanding ...
We present a comprehensive abundance analysis of 20 elements for 16 new low-metallicity stars from t...
We present a homogeneous chemical abundance analysis of 16 elements in 190 metal-poor Galactic halo ...
A model for Galactic chemical evolution, driven by supernova-induced star formation, is formulated a...
We present an analytical and phenomenological model for metal enrichment in halos based on hierarchi...
Context. The stellar halo provides precious information about the Galaxy in its early stages of evol...
Fully cosmological, high-resolution N-body+smooth particle hydrodynamic simulations are used to inve...
We present results of a detailed chemical analysis performed on 23 main-sequence turnoff stars havin...
A stochastic model of the chemical enrichment of metal-poor systems by core-collapse (Type II) super...
Simple, one-zone models for inhomogeneous chemical evolution of the Galactic halo are used to predic...
We investigate the intrinsic scatter in the chemical abundances of a sample of metal-poor ([Fe/H] < ...
We present a homogeneous chemical abundance analysis of 16 elements in 190 metal-poor Galactic halo ...
Using the Eris zoom-in cosmological simulation of assembly of a Milky Way analogue, we study the che...
We report the results of a coherent study of a new class of halo stars defined on the basis of the c...
We present predictions of the evolution of the light elements, Li, Be, and B, in the early epochs of...
© ESO 2017.Context. The chemical abundances of metal-poor halo stars are important to understanding ...
We present a comprehensive abundance analysis of 20 elements for 16 new low-metallicity stars from t...
We present a homogeneous chemical abundance analysis of 16 elements in 190 metal-poor Galactic halo ...
A model for Galactic chemical evolution, driven by supernova-induced star formation, is formulated a...
We present an analytical and phenomenological model for metal enrichment in halos based on hierarchi...
Context. The stellar halo provides precious information about the Galaxy in its early stages of evol...
Fully cosmological, high-resolution N-body+smooth particle hydrodynamic simulations are used to inve...
We present results of a detailed chemical analysis performed on 23 main-sequence turnoff stars havin...
A stochastic model of the chemical enrichment of metal-poor systems by core-collapse (Type II) super...
Simple, one-zone models for inhomogeneous chemical evolution of the Galactic halo are used to predic...
We investigate the intrinsic scatter in the chemical abundances of a sample of metal-poor ([Fe/H] < ...
We present a homogeneous chemical abundance analysis of 16 elements in 190 metal-poor Galactic halo ...
Using the Eris zoom-in cosmological simulation of assembly of a Milky Way analogue, we study the che...
We report the results of a coherent study of a new class of halo stars defined on the basis of the c...
We present predictions of the evolution of the light elements, Li, Be, and B, in the early epochs of...
© ESO 2017.Context. The chemical abundances of metal-poor halo stars are important to understanding ...
We present a comprehensive abundance analysis of 20 elements for 16 new low-metallicity stars from t...
We present a homogeneous chemical abundance analysis of 16 elements in 190 metal-poor Galactic halo ...
Add to ORKG