Add to ORKGA detailed model is constructed for the calculation of electron capture rates of some fp-shell nuclei for situations prevailing in pre-supernova and collapse phases of the evolution of the core of massive stars leading to supernova explosion. The model uses explicitly the Gamow-Teller strength function obtained through (n,p) reaction studies wherever available. The rates include contribution from the excited states of the mother as well as from the resonant states in equilibrium with the back reaction i.e. the beta decay of the daughter nucleus. Comparisons are made with the shell model results and the earlier calculations by Aufderheide et al. and Fuller, Fowler and Newman. For the nuclei $^{56}$Fe, $^{55}$Mn and $^{60}$Ni with negative Q-...
Supernova simulations to date have assumed that during core collapse electron captures occur dominan...
We present shell-model calculations of electron capture strength distributions in A=28 nuclei and co...
International audienceThe importance of microphysical inputs from laboratory nuclear experiments and...
We present Gamow-Teller strength distributions from shell model Monte Carlo studies of fp-shell nucl...
We have calculated the Gamow-Teller strength distributions for the ground states and first excited s...
Electron-capture and \beta-decay of nuclei in the core of massive stars play an important role in th...
Recent shell-model calculations of weak-interaction rates for nuclei in the mass range A = 45 - 65 h...
The beta decay and electron capture rates are of fundamental importance in the evolution of massive ...
Background: In the late stages of stellar core collapse just prior to core bounce, electron captures...
We compute electron-capture rates for 54, 56Fe and Ge isotopes using a self-consistent microscopic a...
Results of shell-model calculations of the Gamow-Teller strength distributions for the (n, p) or ele...
Electron capture rates in Ni isotopes are studied in stellar environments, that is, at high densitie...
The stellar electron capture on nuclei is an essential, semi-leptonic process that is especially sig...
AbstractThe Gamow–Teller strength (GT) distributions and electron capture rates on 55Co and 56Ni hav...
Abstract. We present a new set of electron (e−) capture and β-decay rates that improves previous cal...
Supernova simulations to date have assumed that during core collapse electron captures occur dominan...
We present shell-model calculations of electron capture strength distributions in A=28 nuclei and co...
International audienceThe importance of microphysical inputs from laboratory nuclear experiments and...
We present Gamow-Teller strength distributions from shell model Monte Carlo studies of fp-shell nucl...
We have calculated the Gamow-Teller strength distributions for the ground states and first excited s...
Electron-capture and \beta-decay of nuclei in the core of massive stars play an important role in th...
Recent shell-model calculations of weak-interaction rates for nuclei in the mass range A = 45 - 65 h...
The beta decay and electron capture rates are of fundamental importance in the evolution of massive ...
Background: In the late stages of stellar core collapse just prior to core bounce, electron captures...
We compute electron-capture rates for 54, 56Fe and Ge isotopes using a self-consistent microscopic a...
Results of shell-model calculations of the Gamow-Teller strength distributions for the (n, p) or ele...
Electron capture rates in Ni isotopes are studied in stellar environments, that is, at high densitie...
The stellar electron capture on nuclei is an essential, semi-leptonic process that is especially sig...
AbstractThe Gamow–Teller strength (GT) distributions and electron capture rates on 55Co and 56Ni hav...
Abstract. We present a new set of electron (e−) capture and β-decay rates that improves previous cal...
Supernova simulations to date have assumed that during core collapse electron captures occur dominan...
We present shell-model calculations of electron capture strength distributions in A=28 nuclei and co...
International audienceThe importance of microphysical inputs from laboratory nuclear experiments and...