Index for the course Supersymmetry:
Literature: lecture notes
Chapter 1
1.1 Introduction to supersymmetry
1.2 The Wess-Zumino model in components
Chapter 2
2.1 Superspace and superfields
2.2 The Wess-Zumino model in van der Waerden notation
Chapter 3
3.1 Actions in superspace
3.2 Superspace Feynman rules and supergraphs
3.3 Non-renormalization theorems
3.4 Supersymmetry index and Witten's index
3.5 R-symmetry and Seiberg holomorphicity
Chapter 4
4.1 Supersymmetry algebras and their representations
4.2 central charges and the Olive-Witten phenomenon
Chapter 5
5.1 N=1 super-Yang-Mills in superspace
5.2 Super-QED
5.3 Spontaneous symmetry breaking: F and D terms
5.4 Soft symmetry breaking
Chapter 6
6.1 N=1 super-Yang-Mills gauge fixing and supergraphs
6.2 Beta-functions at 1-loop level
6.3 Summary of results for N=2 and N=4 super-Yang-Mills theory
Chapter 7
7.1 Superspace differential geometry
7.2 Bianchi identities (BI's) for super-Yang-Mills (sYM)
7.3 Solutions of N=1 sYM BI's on and off shell
7.4 Solutions of N=2 sYM BI's on and off shell
7.5 N=2 hypermultiplets
7.6 Results for general N: an off-shell no-go theorem
7.7 Introduction to the background field method and the finiteness properties
of sYM theories
Chapter 8
8.1 Trace anomalies and the flat space quantum gravity
8.2 Trace anomalies and matter loops
8.3 The background field method and graviton loops
8.4 Trace anomalies in supergravity theories
Chapter 9
9.1 The supercurrent
9.2 Supermultiplets of currents and anomalies
9.3 The regularization problem and the Russian resolution
Chapter 10
10.1 D=11 supergravity in components
10.2 Superspace derivation of D=11 supergravity
10.3 Introduction to Kaluza-Klein
10.4 Compactification to D=4 via the seven-torus:
the Cremmer-Julia theoryand scalar field coset models
10.5 Derivation of D=10 supergravity from D=11 on a circle
10.6 p-brane solutions of D=11 supergravity