Book contents
- Frontmatter
- Contents
- PREFACE TO VOLUME II
- NOTATION
- 15 NON-ABELIAN GAUGE THEORIES
- 16 EXTERNAL FIELD METHODS
- 17 RENORMALIZATION OF GAUGE THEORIES
- 18 RENORMALIZATION GROUP METHODS
- 19 SPONTANEOUSLY BROKEN GLOBAL SYMMETRIES
- 20 OPERATOR PRODUCT EXPANSIONS
- 21 SPONTANEOUSLY BROKEN GAUGE SYMMETRIES
- 22 ANOMALIES
- 23 EXTENDED FIELD CONFIGURATIONS
- AUTHOR INDEX
- SUBJECT INDEX
23 - EXTENDED FIELD CONFIGURATIONS
Published online by Cambridge University Press: 05 May 2013
- Frontmatter
- Contents
- PREFACE TO VOLUME II
- NOTATION
- 15 NON-ABELIAN GAUGE THEORIES
- 16 EXTERNAL FIELD METHODS
- 17 RENORMALIZATION OF GAUGE THEORIES
- 18 RENORMALIZATION GROUP METHODS
- 19 SPONTANEOUSLY BROKEN GLOBAL SYMMETRIES
- 20 OPERATOR PRODUCT EXPANSIONS
- 21 SPONTANEOUSLY BROKEN GAUGE SYMMETRIES
- 22 ANOMALIES
- 23 EXTENDED FIELD CONFIGURATIONS
- AUTHOR INDEX
- SUBJECT INDEX
Summary
Most of this book has been devoted to applications of quantum field theory that can at least be described in perturbation theory, whether or not the perturbation series actually works well numerically. In using perturbation theory, we expand the action around the usual spacetime-independent vacuum values of the fields, keeping the leading quadratic term in the exponential exp(iI), and treating all terms of higher order in the fields as small corrections. Starting in the mid-1970s, there has been a growing interest in effects that arise because there are extended spacetime-dependent field configurations, such as those known as instantons, that are also stationary ‘points’ of the action. In principle, we must include these configurations in path integrals and sum over fluctuations around them. (In Section 20.7 we have already seen an example of an instanton configuration, applied in a different context.) Although such non-perturbative contributions are often highly suppressed, they are large in quantum chromodynamics, and produce interesting exotic effects in the standard electroweak theory.
There are also extended field configurations that occur, not only as correction terms in path integrals for processes involving ordinary particles, but also as possible components of actual physical states. These configurations include some that are particle-like, such as magnetic monopoles and skyrmions, which are concentrated around a point in space or, equivalently, around a world line in spacetime. There are also string-like configurations, similar to the vortex lines in superconductors discussed in Section 21.6, which are concentrated around a line in space or, equivalently, around a world sheet in spacetime.
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- Information
- The Quantum Theory of Fields , pp. 421 - 477Publisher: Cambridge University PressPrint publication year: 1996
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