The Unification of Electromagnetism with the Weak Force

Abstract

The year 1983 marked the end of a particularly noteworthy decade in the development of elementaryparticle physics. Between 1973 and 1983 there were three accomplishments of special, perhaps historic, importance: ▹ The theoretical and experimental unification of the forces that govern all of the phenomena of both electromagnetism and the weak interactions. ▹ The recognition that the strongly interacting particles (nucleons, mesons and other hadrons) are in fact made of still smaller entities, now known as quarks, and the development of a tentative theory of the force between the quarks. ▹ The identification of three almost identical (except for mass) families of elementary “particles,” each family consisting of two quarks, one charged lepton (the electron, the muon or the tau) and a neutrino. Maxwell unified electricity, magnetism and optics. The theory that now unifies quantum electrodynamics with the weak nuclear force is a comparable triumph.