Muon g-2 Theory Initiative chair Aida El-Khadra discusses conflicting datasets, disparate calculations and hot competition ...

For centuries, the principle of symmetry has guided physicists towards more fundamental truths, but now a slew of shocking ...

While the Standard Model successfully explains the behavior of fundamental particles through the exchange of gluons, it leaves unanswered the question of why quarks possess such large effective masses ...

Dark Matter remains one of the biggest mysteries in fundamental physics. Many theoretical proposals (axions, WIMPs) and 40 years of extensive experimental search failed to provide any explanation of ...

ABSTRACT: To fully address how quarks get decayed and excited, how particles are formed and generated, and how they interact and transmute, a two-flavor (up & down) multi-excitation (ground & excited) ...

ABSTRACT: To fully address how quarks get decayed and excited, how particles are formed and generated, and how they interact and transmute, a two-flavor (up & down) multi-excitation (ground & excited) ...

Robert Monjo, Ph.D., mathematics professor at Saint Louis University-Madrid, has introduced a theory that may transform scientists' understanding of gravity and its relationship to quantum physics.

The particles that are in an atom: protons, neutrons and electrons The particles that are in protons and neutrons: quarks The four fundamental forces: gravity, electromagnetism, the strong force and ...

Sheldon Glashow recalls the events surrounding a remarkable decade of model building and discovery between 1964 and 1974. Electroweak unification Sheldon Glashow lectures at CERN in 1979. Credit: CERN ...