Scientists from institutions such as Munich University of Technology in Germany revealed the mystery of the formation of deuterium nuclei and their antimatter particles using internal collisions of the European Nuclear Research Center's Large Hadron Collider. Research shows that these fragile nuclei were not born in the chaotic state at the beginning of the Big Bang, but rather from the decay of “ultra-short-lived” high-energy particles in the cooling “fireball.” This advance marks a major step forward for humanity towards a deeper understanding of strong nuclear forces. The relevant results were published in the new issue of “Nature” magazine.

Scientists from institutions such as Munich University of Technology in Germany revealed the mystery of the formation of deuterium nuclei and their antimatter particles using internal collisions of the European Nuclear Research Center's Large Hadron Collider. Research shows that these fragile nuclei were not born in the chaotic state at the beginning of the Big Bang, but rather from the decay of “ultra-short-lived” high-energy particles in the cooling “fireball.” This advance marks a major step forward for humanity towards a deeper understanding of strong nuclear forces. The relevant results were published in the new issue of “Nature” magazine.