Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgements
- 1 An introduction to unitary symmetry
- 2 Soft pions
- 3 Dilatations
- 4 Renormalization and symmetry: a review for non-specialists
- 5 Secret symmetry: an introduction to spontaneous symmetry breakdown and gauge fields
- 6 Classical lumps and their quantum descendants
- 7 The uses of instantons
- 8 1/N
2 - Soft pions
Published online by Cambridge University Press: 10 November 2010
- Frontmatter
- Contents
- Preface
- Acknowledgements
- 1 An introduction to unitary symmetry
- 2 Soft pions
- 3 Dilatations
- 4 Renormalization and symmetry: a review for non-specialists
- 5 Secret symmetry: an introduction to spontaneous symmetry breakdown and gauge fields
- 6 Classical lumps and their quantum descendants
- 7 The uses of instantons
- 8 1/N
Summary
The purpose of these lectures is to explain certain techniques, developed in the last few years by Adler, Weisberger, Weinberg, and others, for the analysis of processes involving low-energy pions. I have tried, as far as possible, to make the lectures self-contained; the only background required of the reader is an understanding of field theory on the Feynman diagram level. In particular, no previous knowledge of current commutators or low-energy theorems is assumed.
In Sec. 1 the reduction formula is developed and some of its consequences discussed. Sec. 2 is a brief summary of the relevant parts of weak-interaction theory. Soft pions first appear in Sec. 3, a discussion of the Goldberger–Treiman relation. Sec. 4 is an analysis of the various definitions of PGAC. Sec. 5 is a discussion of Lagrangian models in general, and the gradient-coupling model in particular. In Sec. 6, Adler's rule for the emission of one soft pion is derived. The current commutation relations are introduced in Sec. 7. In Sec. 8 the formula for the s-wave pion–hadron scattering length is derived. In Sec. 9, the special case of pion-pion scattering is treated. In Sec. 10, a few remarks are made about leptonic decays of kaons.
I have done no original work in this field; most of what I know I have learned in conversations with S. Adler, H. Schnitzer, and S. Weinberg. Those who were lucky enough to attend Weinberg's Loeb lectures at Harvard will know how much these lectures owe to him.
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- Information
- Aspects of SymmetrySelected Erice Lectures, pp. 36 - 66Publisher: Cambridge University PressPrint publication year: 1985
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