### News

First lecture on October 16### Description

Ideas of supersymmetry play a central role in formal theoretical high-energy physics and in relating quantum theory to geometry. In AdS/CFT, classical supergravity is the starting point for understanding strongly coupled quantum field theory. The aim of this course is to discover the mathematical foundations of supersymmetry and to learn the geometric language underlying classical supergravity.

** Prerequisites:**
Solid knowledge of differential geometry, basics of Lie theory and symmetric spaces,
some quantum field theory and general relativity.

**Instructor: **
Prof. J. Walcher, walcher@uni-heidelberg.de

**Time and Place:**

Lectures on Monday & Wednesday, 9-11, MATHEMATIKON SR 5

Problems Sessions on Friday 11-1,MATHEMATIKON SR 9

** References:**

Freedman and van Proeyen, *Supergravity*

Cecotti, *Supersymmetry*

### Plan

Week | Lecture topics | Discussion topics | Problem set |
---|---|---|---|

October 16 | Introduction and overview | super linear algebra | |

October 23 | Clifford algebras and modules | tensor categories | Homework 1 |

October 30 | Spinors | \(G_2\) and triangulations of \(\mathbb R\mathbb P^2\) | Homework 2 |

November 6 | Supersymmetry in relativistic QM | ||

November 13 | Supermultiplets | The functor of points | Homework 3 |

November 20 | Super Lie groups | ||

November 27 | Supermanifolds | The superparticle | |

December 4 | Supermanifolds II | \({\it GL}(n|m)\), \({\it SL}(n|m)\), and \({\it OSp}(n|m)\) | |

December 11 | Superintegration | Superconformal symmetry | |

December 18 | Superfields | ||

January 8 | Cartan geometry | ||

January 15 | |||

January 22 | |||

January 29 |

### Evaluation

Coming soon...