Particles known as tensor mesons are created when high-energy photons interact. These mesons have now been proposed to have a larger effect on photon behavior than previously thought, and provide a ...

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

Physicists have discovered that when beams of light interact at the quantum level, they can generate ghost-like particles ...

The Standard Model of particle physics, a gauge theory itself, successfully describes these three forces and possesses specific symmetries.

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

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

"This work is a step toward understanding how quantum mechanics and gravity work together, a major unsolved problem in ...

Instead of the big bang, some physicists have suggested that our universe may have come from a big bounce following another ...

But the quantum world is not simple, and the moment is slightly different from 2. This is the anomalous magnetic moment, and it is often represented by the expression of g-2 (gee minus two).

T he BASE collaboration within the Antimatter Factory at CERN is having an exciting year. Not only are they getting ready to ...

Here’s what you’ll learn in this story. A new paper uses a simplified model to prove that gravity can be unified between quantum and standard physics. The simpler model still meets the ...

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