Violent explosions of massive, magnetized stars may forge most of the universe’s heavy elements, such as silver and uranium. The ancient star’s elements aren’t from the remnants of a neutron star ...

Figure 1: Schematic illustration of the components of matter ejected from neutron-star mergers. The characteristic luminosity of the kilonova is approximately equal to the radioactive heating rate at ...

In a study published in The Astrophysical Journal, scientists have proposed the features of rapid neutron capture process (r-process) nucleosynthesis in a novel scenario, common envelope jet ...

Heavy duty: artist’s impression of a kilonova releasing r-process elements into the cosmos. (Courtesy: ESO/L Calçada/M Kornmesser) The mystery of where heavy elements such as gold and silver come from ...

Up to a certain point, the elements of the periodic table are largely formed in the hearts of stars. But for elements that are heavy enough (heavier than zinc typically), fusing two lighter nuclei ...