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W2224432624 endingPage "1163" @default.
W2224432624 startingPage "1156" @default.
W2224432624 abstract "We examine a simple relativistic theory of two scalar fields, first discussed by Goldstone, in which as a result of spontaneous breakdown of $U(1)$ symmetry one of the scalar bosons is massless, in conformity with the Goldstone theorem. When the symmetry group of the Lagrangian is extended from global to local $U(1)$ transformations by the introduction of coupling with a vector gauge field, the Goldstone boson becomes the longitudinal state of a massive vector boson whose transverse states are the quanta of the transverse gauge field. A perturbative treatment of the model is developed in which the major features of these phenomena are present in zero order. Transition amplitudes for decay and scattering processes are evaluated in lowest order, and it is shown that they may be obtained more directly from an equivalent Lagrangian in which the original symmetry is no longer manifest. When the system is coupled to other systems in a $U(1)$ invariant Lagrangian, the other systems display an induced symmetry breakdown, associated with a partially conserved current which interacts with itself via the massive vector boson." @default.
W2224432624 created "2016-06-24" @default.
W2224432624 creator A5091415008 @default.
W2224432624 date "1966-05-27" @default.
W2224432624 modified "2023-10-16" @default.
W2224432624 title "Spontaneous Symmetry Breakdown without Massless Bosons" @default.
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W2224432624 doi "https://doi.org/10.1103/physrev.145.1156" @default.
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