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

The magnetic moment of the muon—a tiny property of a tiny particle—has long puzzled physicists. Experiments and theory haven’t quite matched up, leaving open the thrilling possibility of discovering ...

A relatively small detector caught neutrinos from a nuclear reactor using a technique known as coherent scattering ...

Neutrinos were elementary particles that interacted with matter only on a very weak scale, making their experiments massive ...

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

Neutrinos are fundamental particles characterized by no electric charge and very small masses, which are known to interact ...

The new measurement from LHCb has found differences between baryons and antibaryons, which are made of three quarks and three antiquarks respectively. Significantly, baryons make up most of the known ...

Overcoming discrimination in a mostly male preserve, she did groundbreaking work that showed experimentalist physicists where ...

Model considers two DM particles, one stable and one unstable, as well as a vector mediator similar to the photon but with mass, which would promote interaction with ordinary matter particles.

Imagine two flashlights aimed at each other; do their beams collide? Nope! In everyday physics, light is too chill for drama.

Physicists recorded the lowest-energy neutrino event yet, using signals from the particles’ antimatter counterpart produced ...