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

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

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

Physicists have created a quantum bit, or qubit, the fundamental storage unit of a quantum computer, out of antimatter for ...

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

In 1932, Carl David Anderson’s groundbreaking discovery of antimatter confirmed the existence of antiparticles predicted by ...

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 ...

The “Mass for the Care of Creation,” inspired by Pope Francis’ encyclical Laudato Si’, has prayers and Mass readings designed “to ask God for the ability to care for creation.” ...

Quantum computers have the potential to speed up computation, help design new medicines, break codes, and discover exotic new materials -- but that's only when they are truly functional.

While a qubit will collapse an answer down to a 0 or a 1 when it's measured, the ability for an answer to exist in a superposition between a 0 and a 1 makes quantum computing more potent than ...

IonQ, a leading commercial quantum computing and networking company, today announced the first known simulation using a quantum computer of a process called" neutrinoless double-beta decay" with ...