“The anomalous magnetic moment, or g–2, of the muon is important because it provides a sensitive test of the Standard Model of particle physics,” Regina Rameika, the U.S. Department of ...

Study reveals that high-energy cosmic rays are born in magnetic fields during neutron star mergers, a prelude to black holes.

No one has ever probed a particle more stringently than this. In a new experiment, scientists measured a magnetic property of the electron more carefully than ever before, making the most precise ...

Known as the “muon g-2”, this property serves as a robust test of our understanding of particle physics. Theoretical predictions of the muon g-2 are based on the Standard Model of particle physics (SM ...

Magnetic resonance cholangiopancreatography (MRCP) is a non-invasive imaging test that uses a magnetic field, radio waves, and a computer to produce pictures of the inside of your abdomen. It ...

The magnetic moment is the tendency of a particle to align with a magnetic field and when it comes to the fundamental particles, this is something that the standard model predicts pretty accurately.

Magnetic particle imaging (MPI) is an emerging medical imaging modality with the potential for high sensitivity and spatial resolution. Since its introduction back in 2005, researchers have built ...

Magnetic fields are everywhere in the universe. Of course, there's Earth's magnetic field, which deflects dangerous cosmic radiation, wiggles our compasses, and guides flocks of migrating birds ...

Putting tiny magnetic particles inside ordinary water droplets can turn them into liquid acrobats – the droplets can climb steps, leap over obstacles and jump-start chemical reactions.