After six years of collecting data, the muon g-2 experiment released its results and could chart a new path for particle ...

Fermi National Accelerator Laboratory, working on the groundbreaking Muon g-2 experiment, have released their third and final measurement of the muon magnetic anomaly. This result represents a ...

Muons’ magnetism causes them to wobble when traveling through a magnetic field. The Muon g−2 experiment (pronounced “g minus two”, the term used in equations to represent the anomalous magnetic moment ...

material’s magnetic dipole moments and thus create an ordered magnetic field within the screwdriver. This is only part of the story, however, as the magnetic field outside of a magnet is termed ...

The strength of this field is the electron’s magnetic dipole moment, and it has been measured to very high precision. Its value is determined mostly by the magnetic moment of the bare electron ...

5.2.3 The dipole in a uniform magnetic field Place a small compass needle of known magnetic moment m and allowing it to oscillate in the magnetic field. The net magnetic flux through any closed ...

The dipole has a strength, called the dipole moment, depending on how off-centre ... bring them to particular energy states. An external magnetic field was applied to negate noise in parts of ...

Certain nuclear isotopes have magnetic moments associated with them ... This is called a magnetic dipole-dipole coupling. We try to measure those couplings to give us information about distances.