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In a study published in Physical Review Letters, scientists at GSI Helmholtzzentrum für Schwerionenforschung have discovered ...
A new seaborgium isotope may unlock the path to discovering even shorter-lived superheavy nuclei through K-isomer states. An ...
Superheavy elements, residing at the extreme end of the periodic table, represent an intriguing domain where relativistic effects and quantum electrodynamics profoundly shape chemical behaviour.
A team of physicists has proposed a new method for producing superheavy elements by using ⁴⁰Ar as the projectile in fusion reactions. This approach not only offers a cost-effective alternative ...
This could open up newer possibilities in making superheavy elements in the lab and understanding nuclear stability at higher ...
An international research team led by GSI/FAIR, Johannes Gutenberg University Mainz (JGU) and Helmholtz Institute Mainz (HIM) has succeeded in the production of a new seaborgium isotope. In the ...
The exploration of the isotopic border for the element seaborgium is a natural continuation of these experiments, mapping the coastline of the island of stability of the superheavy nuclei.
Discovery of 257Sg and its K-isomer reveals new insights into superheavy element fission and quantum stability mechanisms.
Professor Lam added: "The RSC Visual Elements table provides details of each element and presents them in a clear and interactive way. It also includes the information on some super-heavy elements ...