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

In its second antimatter breakthrough this month, CERN announced it successfully created the first-ever antimatter qubit, ...

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

Columbia University engineers have designed ultra-resilient analog-to-digital converter (ADC) chips that now play a critical ...

The Future Circular Collider is CERN's next leap in unlocking the secrets of the universe. Designed to be bigger and far more ...

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

In a first, CERN physicists succeeded in observing matter-antimatter imbalance in baryons, fundamental particles that make up ...

Pioneering work Illustration of how a proton collision (left) at the Large Hadron Collider creates a beauty baryon (centre) ...

Collision(s) played to a packed house on 18 July in the Cour Minérale of Avignon University, as part of the Avignon Off ...

The new measurement from LHCb has found differences between baryons and antibaryons, which are made of three quarks and three ...

In a breakthrough for antimatter research, the BASE collaboration at CERN has kept an antiproton—the antimatter counterpart ...

The discovery of the Higgs boson hasn’t led to a explosion of new physics. Now, some scientists think that hidden physics may ...