Protons are subatomic particles that are present in all the atoms in the universe. Antiprotons are created in the lab and ...

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

Scientists made an antimatter qubit made from an antiproton that is in a state of quantum superposition. This breakthrough ...

Scientists have observed a brand-new and exotic atomic nucleus: aluminium-20. Unlike anything seen before, it decays through ...

The U.S. Department of Energy-funded site sits on 5,265 acres in Suffolk County and is so vast it has its own ZIP code — ...

Physicists would dearly love to find new particles, but there's no sign of them in colliders like the LHC. Now we have found a new way of accessing a tiny slice of reality where they might be hiding ...

New techniques and refinements of older ones are needed to reach <1 K for quantum-computing cooling. Part 1 provided an ...

Coveney: The scale of electronic structure calculations feasible on current or near-term quantum hardware is constrained by several inherent limitations, including coherence time, qubit count and ...

When massive stars reach the end of their lives, something strange and violent happens deep inside them. As they run out of ...

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

Physicists at CERN have successfully created an antimatter qubit, a landmark achievement that could help probe the differences between matter and antimatter.