Computational, Simulation and Machine Learning Methods in High Energy Physics and Beyond: Automated Computational Tools.
A.Y. 2023/2024
Course offered to students on the PhD programme in
Visit the PhD website for the course schedule and other information
Lead instructor: Stefano Carrazza
The course is organised in lectures and tutorial sessions where students perform simulations on their own. First, the basics concepts of perturbative QCD relevant for describing events taking place at the LHC experiments are reviewed together with notions of fixed order computations at higher orders, parton showers and their merging/matching. Second, the techniques used for making such computations automatically starting from a generic Lagrangian as well as their implementation in public tools are presented. As practical applications, students will be asked to perform fully-fledged simulations of processes of interest at the LHC, SM as well as beyond the SM, via the use of FeynRules/MadGraph5_aMC@NLO/Pythia/Delphes simulation chain.
Quantum Field Theory, Particle Physics, QCD and electroweak interactions.
Mandatory for students of the Phd programme in " Physics, Astrophysics and Applied Physics" at first year
Mandatory for students of the Phd programme in " Physics, Astrophysics and Applied Physics" at first year
Assessment methods
Giudizio di approvazione
Assessment result
superato/non superato
How to enrol
Deadlines
The course enrolment deadline is usually the 27th day of the month prior to the start date.
How to enrol
- Access enrolment on PhD courses online service using your University login details
- Select the desired programme and click on Registration (Iscrizione) and then on Register (Iscriviti)
Ignore the option "Exam session date” that appears during the enrolment procedure.
Contacts
For help please contact [email protected]
Professor(s)
Reception:
To be agreed (email)
DC/1/6, Physics Department