Explore ETH Zurich’s cutting-edge experiments on fundamental forces and dark matter. Click to read the full story now ...

Scientists are using trapped ions in cutting-edge experiments to hunt for signs of an undiscovered particle that might help ...

The invisible dark matter is one of the universe's biggest mysteries, and its existence is confirmed only by the ...

While the Standard Model (SM) describes all known fundamental particles and many of the interactions between them, it fails ...

A new study analyzing the atomic transition of five calcium isotopes constrains the mass of a particle that would carry such a force from somewhere around 10 to 10 million electronvolts.

In a groundbreaking study published in Physical Review Letters, physicists from ETH Zurich, in collaboration with teams from ...

Scientists are using trapped ions in experiments to search for signs of a new particle that could help explain the mysterious ...

A Yukawa particle is the hypothesized mediator of a possible force within the cores of atoms. If it exists, it would have a subtle influence on how particles making up an atom's nucleus interact with ...

The precursors of heavy elements might arise in the plasma underbellies of swollen stars or in smoldering stellar corpses.

This could open up newer possibilities in making superheavy elements in the lab and understanding nuclear stability at higher ...

Answer: That would be magnesium. Magnesium gets extremely hot when it reacts with oxygen in the air. Magnesium has 2 ...

With higher efficiency and lower costs, perovskite–silicon tandem cells mark a breakthrough in solar tech. Can they truly ...