Book contents
- Frontmatter
- Contents
- PREFACE TO VOLUME III
- NOTATION
- 24 HISTORICAL INTRODUCTION
- 25 SUPERSYMMETRY ALGEBRAS
- 26 SUPERSYMMETRIC FIELD THEORIES
- 27 SUPERSYMMETRIC GAUGE THEORIES
- 28 SUPERSYMMETRIC VERSIONS OF THE STANDARD MODEL
- 29 BEYOND PERTURBATION THEORY
- 30 SUPERGRAPHS
- 31 SUPERGRAVITY
- 32 SUPERSYMMETRY ALGEBRAS IN HIGHER DIMENSIONS
- AUTHOR INDEX
- SUBJECT INDEX
31 - SUPERGRAVITY
Published online by Cambridge University Press: 05 May 2013
- Frontmatter
- Contents
- PREFACE TO VOLUME III
- NOTATION
- 24 HISTORICAL INTRODUCTION
- 25 SUPERSYMMETRY ALGEBRAS
- 26 SUPERSYMMETRIC FIELD THEORIES
- 27 SUPERSYMMETRIC GAUGE THEORIES
- 28 SUPERSYMMETRIC VERSIONS OF THE STANDARD MODEL
- 29 BEYOND PERTURBATION THEORY
- 30 SUPERGRAPHS
- 31 SUPERGRAVITY
- 32 SUPERSYMMETRY ALGEBRAS IN HIGHER DIMENSIONS
- AUTHOR INDEX
- SUBJECT INDEX
Summary
Gravity exists, so if there is any truth to supersymmetry then any realistic supersymmetry theory must eventually be enlarged to a supersymmetric theory of matter and gravitation, known as supergravity. Supersymmetry without supergravity is not an option, though it may be a good approximation at energies far below the Planck scale.
There are two leading approaches to the construction of the theory of supergravity. First, supergravity can be presented as a theory of curved superspace. This approach is analogous to the development of supersymmetric gauge theories in Sections 27.1-27.3; the gravitational field appears as a component of a superfield with unphysical as well as physical components, like the unphysical C, M, N, and ω components of the gauge superfield V. The task of deriving the full non-linear supergravity theory in this way is forbiddingly complicated, and so far has not been freed of steps that are apparently arbitrary. At one point or another in the derivation, it has been necessary simply to state that some set of constraints on the graviton superfield are the proper ones to adopt.
Here we will follow a second approach that is less elegant but more transparent. In our discussion here, we begin in Sections 31.1-31.5 with the case where the gravitational field is weak, analyzing supergravity by the same flat-space superfield methods that we used in Chapters 26 and 27 to study ordinary supersymmetry theories.
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- The Quantum Theory of Fields , pp. 318 - 381Publisher: Cambridge University PressPrint publication year: 2000