Two recent studies speculate a natural emergence of the mysterious substance, offering ‘self-contained and calculable ...

New research suggests that primordial black holes could have played an important role in the formation of the universe's ...

The new measurement from LHCb has found differences between baryons and antibaryons, which are made of three quarks and three antiquarks respectively. Significantly, baryons make up most of the known ...

Is it possible that the universe’s most mysterious substance could finally leave a visible trace?” For decades, this question ...

Model considers two DM particles, one stable and one unstable, as well as a vector mediator similar to the photon but with mass, which would promote interaction with ordinary matter particles.

For the first time, physicists at CERN have coaxed an antiproton — a mirror twin of the matter that makes up our world — into ...

Immediately after the Big Bang, which occurred around 13.8 billion years ago, the universe was dominated by unimaginably high ...

It won’t make its way into quantum computers, but it could help us understand why the universe is filled with matter.

Deep beneath the Swiss-French border, the Large Hadron Collider unleashes staggering amounts of energy and radiation—enough ...

Particle physics may have been an early adopter, but AI has now spread throughout physics. This shouldn’t be too surprising. Physics is data-heavy and computationally intensive, so it benefits from ...

Neutrinos, ghostly particles barely interacting with matter, may secretly be reshaping the fates of massive stars. New ...

The first antimatter qubit will help search for differences between matter and antimatter ...