Add to ORKGDetailed hydrodynamic modeling of the passage of supernova shocks through the hydrogen envelopes of blue and red progenitor stars was carried out to explore the sensitivity to model conditions of light element production (specifically Li-7 and B-11) which was noted by Dearborn, Schramm, Steigman and Truran (1989) (DSST). It is found that, for stellar models with M is less than or approximately 100 M solar mass, current state of the art supernova shocks do not produce significant light element yields by hydrodynamic processes alone. The dependence of this conclusion on stellar models and on shock strengths is explored. Preliminary implications for Galactic evolution of lithium are discussed, and it is suspected that intermediate mass red gia...
Context. Un-evolved, very metal-poor stars are the most important tracers of the cosmic abundance of...
We calculate the evolution of Li6 generated from cosmic rays produced by an early population of mass...
We investigate energetic type Ic supernovae as production sites for $^6$Li and Be in the early stage...
We examine one zone numerical models of galactic chemical evolution of the light elements (lithium, ...
We adopt up-to-date 7Li yields from asymptotic giant branch stars in order to study the temporal evo...
Recent determinations of the abundance of the light-element Li in very metal-poor stars show that it...
We discuss two scenarios for the galactic chemical evolution of lithium. In one, the primordial 7Li ...
Of all the light elements, the evolution of lithium (Li) in the Milky Way is perhaps the most diffic...
It has been demonstrated that Li-7 can be created in low mass red giant stars, via extra deep mixing...
According to standard stellar evolution, lithium is destroyed throughout most of the evolution of lo...
The production of ^7 Li and ^7 Be during the explosive hydrogen-burning that occurs in nova explosio...
The vast majority of stars with mass similar to that of the Sun are expected to destroy lithium (Li)...
In an effort to probe the extent of variations in the interstellar ^7Li/^6Li ratio seen previously, ...
We have measured the Li abundance of 18 stars with -2 -0.5. We speculate that cool-bottom processin...
Current models of stellar evolution predict that stars more massive than $\sim6\:$M$_{\odot}$ should...
Context. Un-evolved, very metal-poor stars are the most important tracers of the cosmic abundance of...
We calculate the evolution of Li6 generated from cosmic rays produced by an early population of mass...
We investigate energetic type Ic supernovae as production sites for $^6$Li and Be in the early stage...
We examine one zone numerical models of galactic chemical evolution of the light elements (lithium, ...
We adopt up-to-date 7Li yields from asymptotic giant branch stars in order to study the temporal evo...
Recent determinations of the abundance of the light-element Li in very metal-poor stars show that it...
We discuss two scenarios for the galactic chemical evolution of lithium. In one, the primordial 7Li ...
Of all the light elements, the evolution of lithium (Li) in the Milky Way is perhaps the most diffic...
It has been demonstrated that Li-7 can be created in low mass red giant stars, via extra deep mixing...
According to standard stellar evolution, lithium is destroyed throughout most of the evolution of lo...
The production of ^7 Li and ^7 Be during the explosive hydrogen-burning that occurs in nova explosio...
The vast majority of stars with mass similar to that of the Sun are expected to destroy lithium (Li)...
In an effort to probe the extent of variations in the interstellar ^7Li/^6Li ratio seen previously, ...
We have measured the Li abundance of 18 stars with -2 -0.5. We speculate that cool-bottom processin...
Current models of stellar evolution predict that stars more massive than $\sim6\:$M$_{\odot}$ should...
Context. Un-evolved, very metal-poor stars are the most important tracers of the cosmic abundance of...
We calculate the evolution of Li6 generated from cosmic rays produced by an early population of mass...
We investigate energetic type Ic supernovae as production sites for $^6$Li and Be in the early stage...