4.6 C
Brussels
Friday, November 22, 2024
EnvironmentAstronomers told where and how gold and platinum are formed in the...

Astronomers told where and how gold and platinum are formed in the universe

DISCLAIMER: Information and opinions reproduced in the articles are the ones of those stating them and it is their own responsibility. Publication in The European Times does not automatically means endorsement of the view, but the right to express it.

DISCLAIMER TRANSLATIONS: All articles in this site are published in English. The translated versions are done through an automated process known as neural translations. If in doubt, always refer to the original article. Thank you for understanding.

Newsdesk
Newsdeskhttps://europeantimes.news
The European Times News aims to cover news that matter to increase the awareness of citizens all around geographical Europe.

New research suggests binary neutron stars are a likely source of gold, platinum and other heavy elements. The results of the work are published by the Astrophysical Journal Letters.

Most of the elements lighter than iron are “forged” in the cores of stars as a result of thermonuclear fusion. But until recently, scientists had no idea how and where elements heavier than iron came from. Indeed, for their formation, more complex conditions are needed, high temperature and pressure are not enough.

When stars undergo nuclear fusion, they require energy to fuse protons to form heavier elements. Stars efficiently produce lighter elements, from hydrogen to iron. However, the synthesis of more than 26 protons in iron becomes energetically inefficient.

A new study by scientists from the Massachusetts Institute of Technology and the University of New Hampshire has shown that it is the merging of neutron holes that is responsible for the appearance of gold and platinum. It turned out that over the past 2.5 billion years, more heavy metals have appeared in the merger of neutron stars than in their collisions with black holes.

This is the first study to compare the two types of mergers in terms of heavy metal yield. The authors of the work have already called neutron stars the “gold mine” of heavy elements.

- Advertisement -

More from the author

- EXCLUSIVE CONTENT -spot_img
- Advertisement -
- Advertisement -
- Advertisement -spot_img
- Advertisement -

Must read

Latest articles

- Advertisement -