Going to smaller and smaller distance scales reveals more fundamental views of nature, which means if we can understand and describe the smallest scales, we can build our way to an understanding of ...

Add Yahoo as a preferred source to see more of our stories on Google. When you buy through links on our articles, Future and its syndication partners may earn a commission. Eight years ago, scientists ...

Our existence rests on a razor‑thin imbalance in the early cosmos. When the universe was young, matter and antimatter should ...

Understanding why we live in a matter-dominated universe demands that scientists recreate the quark-gluon plasma that existed one millionth of a second after the Big Bang. A Large Ion Collider ...

When we look around at the Universe: at the planets and stars, at the galaxies and clusters of galaxies, and at the gas, dust and plasma populating the space between these dense structures, we find ...

Every fundamental particle in the universe has an antiparticle, which has the same mass but the opposite charge. If a particle should ever meet its antiparticle, the two would annihilate each other in ...

Most of the laws of nature treat particles and antiparticles equally, but stars and planets are made of particles, or matter, and not antiparticles, or antimatter. That asymmetry, which favors matter ...

So far, the LHC has been spending its time ramming protons together, leaving Brookhaven’s Relativistic Heavy Ion Collider (RHIC) the king of the hill when it comes to smashing larger atomic nuclei.

Scientists have been trying already for years to resolve the issue whether dark matter really exists, and if so what are properties of its constituent particles. Physicists expected that results of ...

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Most of the laws of nature treat particles and antiparticles equally, but stars and planets are made of particles or matter and not antiparticles or antimatter. That asymmetry, which favors matter to ...

Most of the laws of nature treat particles and antiparticles equally, but stars and planets are made of particles, or matter, and not antiparticles, or antimatter. That asymmetry, which favors matter ...