Physicists have created the first qubit from an antiparticle. The team is attempting to answer fundamental questions about the universe.

"This represents the first antimatter qubit," says Stefan Ulmer, a physicist with CERN's BASE collaboration. "Most ...

CERN scientists have successfully analyzed a particle of antimatter in a quantum superposition, marking the first-ever antimatter qubit.

They achieved a spin coherence time of 50 seconds, meaning the antiproton stayed in a stable quantum rhythm for nearly a ...

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

“The level of control the authors have achieved over an individual antimatter particle is unprecedented,” says Dmitry Budker, ...

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

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

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

The BASE collaboration within the Antimatter Factory at CERN is having an exciting year. Not only are they getting ready to transport antimatter around the facility on the back of a van, but they have ...

Scientists made an antimatter qubit made from an antiproton that is in a state of quantum superposition. This breakthrough will allow the strength of the particle's magnetic moment to be measured with ...

While qubits are the basic building blocks of quantum computers, where they allow information to be stored not just in one of two states but via a potentially limitless superposition of those states, ...