Quantum meaning of classical field theory
- 1 July 1977
- journal article
- research article
- Published by American Physical Society (APS) in Reviews of Modern Physics
- Vol. 49 (3) , 681-706
- https://doi.org/10.1103/revmodphys.49.681
Abstract
Recent researches have shown that it is possible to obtain information about the physical content of nontrivial quantum field theories by semiclassical methods. This article reviews some of these investigations. We discuss how solutions to field equations, treated as classical, -number nonlinear differential equations, expose unexpected states in the quantal Hilbert space with novel quantum numbers which arise from topological properties of the classical field configuration or from the mixing of internal and space-time symmetries. Also imaginary-time, -number solutions are reviewed. It is shown that they provide nonperturbative information about the vacuum sector of the quantum theory.
Keywords
This publication has 75 references indexed in Scilit:
- Fermions in the background pseudoparticle field in an O(5) formulationPhysics Letters B, 1977
- A mechanism for quark confinementPhysics Letters B, 1977
- Rotational covariance and the Yang-Mills monopolePhysical Review D, 1976
- Canonical formalism for gauge theories with application to monopoleNuclear Physics B, 1976
- The structure of the gauge theory vacuumPhysics Letters B, 1976
- Pseudoparticle solutions of the Yang-Mills equationsPhysics Letters B, 1975
- Quantum expansion of soliton solutionsPhysical Review D, 1975
- Quantum perturbation theory of solitonsNuclear Physics B, 1975
- Massless Electrodynamics on the 5-Dimensional Unit Hypersphere: An Amplitude-Integral FormulationPhysical Review D, 1973
- Massless, Euclidean Quantum Electrodynamics on the 5-Dimensional Unit HyperspherePhysical Review D, 1972