Gamma rays emerging from neutron stars at the hearts of supernova explosions could solve the mystery of dark matter — in just ...

That’s because, as far as we know, electrons are fundamental particles. In other words, they have no smaller components. That ...

After almost a century of speculation, proposals and searches for dark matter, physicists now know that it currently ...

Once inside the body, HIV persists because of its remarkable ability to hide within healthy CD4 T cells, where it can lie ...

Now, H.E.S.S. scientists are excited because they’ve detected the highest energy electrons and positrons to date (a positron ...

The nature of dark matter has puzzled astronomers since discovering that 85% of the universe's matter is invisible through ...

Researchers believe that observing gamma rays from a supernova could confirm the existence of axions, potentially solving the ...

Axions are the most likely candidate for enigmatic dark matter that dominates the universe. Astrophysicists are searching for evidence of high-mass axions produced during supernovae. Scientists ...

Physicists surprised to discover electrons in pentalayer graphene can exhibit fractional charge. New study suggests how this could work.

The researchers found that the emitted dark matter would ring space-time like a bell around the black hole. It would not be ...

Scientists have uncovered new details about how mass is distributed inside tiny particles called hadrons, such as protons, ...

Fermium studies indicate nuclear shell effects diminish as nuclear mass increases, emphasizing macroscopic influences in ...