The heavy element strontium is created in the violent collision of a pair of neutron stars, according to a new study. It’s the first time scientists have detected the birth of a heavy element found on ...

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 ...

An artist’s impression of strontium emerging from a neutron star merger. ESO/L. Calçada/M. Kornmesser When massive neutron stars collide, they don’t only produce dazzling light, bursts of gamma rays, ...

Most chemical elements heavier than helium were born in the death throes of stars; the explosive energy of a supernova is responsible for generating most of the contents of the periodic table. Now, a ...

Alfredo has a PhD in Astrophysics and a Master's in Quantum Fields and Fundamental Forces from Imperial College London.View full profile Alfredo has a PhD in Astrophysics and a Master's in Quantum ...

(CNN) — Two years ago astronomers for the first time observed the collision of two neutron stars, which created gravitational waves and light and created heavy elements such as gold, platinum and lead ...

Measurements on neutron-rich nuclei help to refine models of how heavy elements came into existence Models for how heavy elements are produced within stars have become more accurate thanks to ...

The heaviest elements in nature might be formed by one of the most catastrophic events in the universe, according to a new study by American researchers. The rest of this article is behind a paywall.

The cosmic origins of elements heavier than iron are mysterious. One elemental birthplace came to light in 2017 when two neutron-rich dead stars collided and spewed out gold, platinum and other hefty ...

Precious elements may come from spinning neutron stars that have swallowed a tiny black hole and imploded. If true, this dramatically changes our understanding not only of how rare elements like gold ...

For the first time, a freshly made heavy element, strontium, has been detected in space, in the aftermath of a merger of two neutron stars. This finding was observed by ESO’s X-shooter spectrograph on ...

Neutron star collisions do not create the quantity of chemical elements previously assumed, a new analysis of galaxy evolution finds. The research also reveals that current models can't explain the ...