Practical guide to loop integration
Practical guide to loop integration is a short block course I have developed for the University of Durham in 2022 and extended for the University of Bern in 2024.
Contact: Yannick Ulrich
Please report mistakes as issues or per email.
Abstract
Loop integration is a vital part of any higher order calculation. However, practical tools to actually compute these integrals are rarely covered in lectures. In this course, I will cover some advanced tools that have been used in a number of multi-scale multi-loop calculations.
After introducing the problem, I will discuss integration-by-parts reduction to reduce the number of integrals. Next, I will discuss the method of regions to reduce the number of scales of the integrals. Finally, I will discuss the method of differential equations and in particular Auxilary Mass Flow to actually calculate the integrals.
The course will be composed of lectures introducing the techniques and practical, hands-on example at the two-loop level.
Course material
- Lecture notes: pdf html
- Interactive plot: here
- Code examples: here
- STL files: stand, inner part, lower part, upper part
| Topic | Problem sheet |
|---|---|
| Basics of loop integration |
Problems Solutions |
| Integration-by-parts relations |
Problems Solutions |
| The Method of Regions |
Problems Solutions |
| Differential equations |
Problems Solutions |
| Mellin Barnes integration |
Problems Solutions |
| Series expansion of loop integrals |
Problems Solutions |
| Auxiliary Mass Flow |
Course material from 2024
- Lecture notes: here
- Interactive plot: here
- Code examples: here
- STL files: stand, inner part, lower part, upper part
Unfortunately, the recordings are no longer available.
| Date | Topic | Problem sheet |
|---|---|---|
| 16 April | Basics of loop integration |
Problems Solutions |
| 23 April | Integration-by-parts relations |
Problems Solutions |
| 30 April | The Method of Regions |
Problems Solutions |
| 7 May | Differential equations |
Problems Solutions |
| 14 May | Mellin Barnes integration |
Problems Solutions |
| 21 May | Series expansion of loop integrals |
Problems Solutions |
| 28 May | Auxiliary Mass Flow |
Course material from 2022
| Date | Topic | Problem sheet | Recordings |
|---|---|---|---|
| 13 May | Basics of loop integration |
Problems Solutions |
Lecture |
| 16 May | Integration-by-parts relations | Problems Solutions | Lecture |
| 18 May | The method of region | Problems Solutions | Lecture |
| 20 May | Mellin-Barnes | Problems Solutions | Lecture |
Most problems can be solved with pen and paper. However, participants are encouraged to acquaint themselves with tools like Mathematica to avoid long manual calculations.
All material is licenced under CC BY 4.0. You can find the source code and supplemental material here.
Further reading
- S. Weinzierl: Feynman Integrals, [2201.03593]
- V. A. Smirnov: Analytic tools for Feynman integrals, Springer (2012)
- V. A. Smirnov: Feynman integral calculus, Springer (2006)
- D. Urwyler: Mellin-Barnes for two-loop integrals, University of Zurich (Bachelor thesis) (2019)
- T. Engel: Two-loop corrections to the muon decay, ETH Zurich (Master thesis) (2018)
- S. Borowka: Evaluation of multi-loop multi-scale integrals and phenomenological two-loop applications, TU Munich (PhD thesis) (2014)