- 著者
-
Kugo Taichiro
Ojima Izumi
Department of Physics Kyoto University
Research Institute for Mathematical Sciences Kyoto University
- 出版者
- Publication Office, Progress of Theoretical Physics
- 雑誌
- Supplement of the Progress of theoretical physics = Supplement of the Progress of theoretical physics (ISSN:03759687)
- 巻号頁・発行日
- vol.66, pp.1-130, 1979-12-20
- 被引用文献数
-
4
935
A manifestly covariant and local canonical operator formalism of non-Abelian gauge theories is presented in its full detail. This formalism, applicable to Yang-Mills theories as well as to gravity, not only provides us a transparent understanding in the scattering theoretical aspects, but also makes it possible to discuss other important problems directly related to the (Heisenberg) operators and the state vectors: As for the former, the physical S-matrix unitarity is proved quite generally on the basis of the representation of the algebra of the BRS charge, and asymptotic field analysis is explicitly performed for some examples. As for the latter, the problems of observables and the well-definedness of charge operators are discussed and clear results are obtained, where the locality and covariance of the formalism are indispensable. Observables are shown to be invariant under the BRS transformation as well as the unbroken global gauge groups. By analyzing the structure of "Maxwell" equations in YM theories, the converse of the Higgs theorem is found to hold. This turns out to lead to a remarkably simple criterion of quark confinement in QCD. The present formalism is found useful also for the U(1) problem and the charge universality proof in the Weinberg-Salam model. General theory of indefinite metric quantum fields is developed to some extent.