Add to ORKGThe [beta]-decay of 187Re represents a suited cosmo-chronometer for the age of the r-process abundances, since the radiogenic part of the daughter isotope 187Os is defined by the difference between the solar 187Os abundance and s-process contribution to 187Os. The latter component can be determined via the s-process systematics based on the stellar neutron capture cross sections of 186Os and 187Os. The laboratory cross section of 187Os requires a significant correction for the effect of the low-lying excited state at 9.75 keV, which is strongly populated under stellar conditions. This theoretical correction can be improved by an experimental cross section for inelastic scattering to the 9.75 keV state. High resolution time-of-flight measure...
Dating the age of the universe by the β-decay of 187Re (t1/2 = 41.2 Gyr) requires the accurate asses...
Dating the age of the universe by the ß-decay of 187Re (t1/2 = 41.2 Gyr) requires the accurate asses...
We study a new s-process path through an isomer of $^{186}$Re to improve a $^{187}$Re-$^{187}$Os nuc...
The ß-decay of 187Re (t1/2 = 42.3 Gyr) represents a suited cosmo-chronometer for the age of the r-pr...
The β-decay of 187Re represents a suited cosmo-chronometer for the age of the r-process abundances, ...
The stellar neutron capture cross sections of 186Os and 187Os are fundamental for the Re/Os cosmo-ch...
The stellar neutron capture cross sections of 186Os and 187Os are fundamental for the Re/Os cosmo-c...
The precise determination of the neutron capture cross sections of 186Os and 187Os is important to d...
The precise determination of the neutron capture cross sections of 186Os and 187Os is important to d...
The neutron capture cross sections of (186)Os and (187)Os are of key importance for defining the 8-p...
The Re/Os cosmochronometer is a dating technique based on the decay of 187Re into 187Os. It determin...
Dating the age of the universe by the β-decay of 187Re (t1/2 = 41.2 Gyr) requires the accurate asses...
Dating the age of the universe by the ß-decay of 187Re (t1/2 = 41.2 Gyr) requires the accurate asses...
We study a new s-process path through an isomer of $^{186}$Re to improve a $^{187}$Re-$^{187}$Os nuc...
The ß-decay of 187Re (t1/2 = 42.3 Gyr) represents a suited cosmo-chronometer for the age of the r-pr...
The β-decay of 187Re represents a suited cosmo-chronometer for the age of the r-process abundances, ...
The stellar neutron capture cross sections of 186Os and 187Os are fundamental for the Re/Os cosmo-ch...
The stellar neutron capture cross sections of 186Os and 187Os are fundamental for the Re/Os cosmo-c...
The precise determination of the neutron capture cross sections of 186Os and 187Os is important to d...
The precise determination of the neutron capture cross sections of 186Os and 187Os is important to d...
The neutron capture cross sections of (186)Os and (187)Os are of key importance for defining the 8-p...
The Re/Os cosmochronometer is a dating technique based on the decay of 187Re into 187Os. It determin...
Dating the age of the universe by the β-decay of 187Re (t1/2 = 41.2 Gyr) requires the accurate asses...
Dating the age of the universe by the ß-decay of 187Re (t1/2 = 41.2 Gyr) requires the accurate asses...
We study a new s-process path through an isomer of $^{186}$Re to improve a $^{187}$Re-$^{187}$Os nuc...