A recent study published in Nature combines data from two major experiments - NOvA in the United States and T2K in Japan - to observe with unprecedented precision how neutrinos, particles capable ...

Scientists from two large neutrino studies in the U.S. and Japan join forces to see if the elusive particle might lie at the ...

Antimatter, the elusive counterpart to the matter that makes up everything around us, has intrigued scientists for decades. Recent breakthroughs have begun to unravel the mysteries surrounding ...

Understanding why matter and antimatter behave differently is key to understanding why there is a universe at all. Now physicists have discovered the latest example of a subtle difference between the ...

Antimatter, particles with opposite charge to their matter counterparts, was theoretically predicted and later experimentally confirmed, existing naturally due to charge conservation in particle ...

An artistic representation of antihyperhydrogen-4 — an antimatter hypernucleus made of an antiproton, two antineutrons, and an antilambda particle — created in a collision of two gold nuclei (left).

When matter and antimatter meet, they annihilate, releasing energy in the form of radiation. Such encounters are governed by Einstein’s famous equation, E=mc 2 — energy equals mass times the square of ...