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
5 - Secret symmetry: an introduction to spontaneous symmetry breakdown and gauge fields
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
Introduction
Here are some long-standing problems in particle theory:
(1) How can we understand the hierarchical structure of the fundamental interactions? Are the strong, medium strong (i.e. SU(3)-breaking), electromagnetic, and weak interactions truly independent, or is there some principle that establishes connections between them?
(2) How can we construct a renormalizable theory of the weak interactions, one which reproduces the low-energy successes of the Fermi theory but predicts finite higher-order corrections?
(3) How can we construct a theory of electromagnetic interactions in which electromagnetic mass differences within isotopic multiplets are finite?
(4) How can we reconcile Bjorken scaling in deep inelastic electroproduction with quantum field theory? The SLAC–MIT experiments seem to be telling us that the light-cone singularities in the product of two currents are canonical in structure; ordinary perturbation theory, on the other hand, tells us that the canonical structure is spoiled by logarithmic factors, which get worse and worse as we go to higher and higher orders in the perturbation expansion. Are there any theories of the strong interactions for which we can tame the logarithms, sum them up and show they are harmless?
Enormous progress has been made on all of these problems in the last few years. There now exists a large family of models of the weak and electromagnetic interactions that solve the second and third problem, and we have discovered a somewhat smaller family of models of the strong interactions that solve the fourth problem.
- Type
- Chapter
- Information
- Aspects of SymmetrySelected Erice Lectures, pp. 113 - 184Publisher: Cambridge University PressPrint publication year: 1985
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