QCD and Monte Carlos

 
 

QCD and Monte Carlos

Lecture Course

Hannes Jung (DESY, U Antwerp)

University Antwerp


The lecture course is intended for master students, PhD students and postdocs. It covers a basic introduction to QCD and the QCD evolution equations (DGLAP, BFKL and CCFM).

A basic introduction to Monte Carlo methods will be given, and these methods will be applied to calculate cross sections and the evolution of parton densities.


During the course we will learn, how to write a small program to integrate a partonic cross section. We will apply Monte Carlo methods to solving the DGLAP evolution equation and to calculate the transverse momentum spectrum of Higgs production in proton-proton collisions at the LHC.


The course is held at University Antwerp, in blocks of 1-2 day lectures with exercise sessions in the afternoon.


Lectures will be on4

24. Nov    9:00 - 12     Exercises    14 - 16:30

25. Nov    9:30 - 12     Exercises    14 - 16:30

1.   Dec     9:30 - 12     Exercises    14 - 16:30

2.   Dec     9:30 - 12     Exercises    14 - 16:30

15. Dec     9:30 - 12     Exercises    14 - 16:30  

16. Dec     9:30 - 12     Exercises    14 - 16:30


 
Lectures 24. Nov 2009 Lecture 1 part1 Lecture 1 part2 Lecture 1 scan part1 Lecture 1 scan part2 25. Nov 2009 Lecture 2 Lecture 2 scan 1. Dec 2009 Lecture 3 Lecture 3 scan 2. Dec 2009 Lecture 4 Lecture 4 scan 15. Dec 2009 Lecture 5 Lecture 5 scan 16. Dec 2009 Lecture 6 Lecture 6 scan Exercises Root in 5 seconds How to get started Exercise 1 text sheet Exercise 1 template Exercise 1 solution Exercise 2 text sheet Exercise 2 template Exercise 2 solution Exercise 3 text sheet Exercise 3 template Exercise 3 solution Exercise 4 text sheet Use Exercise 3 template Exercise 5 text sheet Exercise 5 template Exercise 5 solution Exercise 6 text sheet Exercise 6 template Exercise 6 solution http://www.desy.de/~jung/qcd_and_mc_2009-2010/lecture1-part1-new.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/lecture1-part2-new.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/scan-lecture1-part1.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/scan-lecture1-part2.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/lecture2.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/scan-lecture2.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/lecture3.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/scan-lecture3.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/lecture4.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/scan-lecture4.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/lecture5.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/scan-lecture5.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/lecture6.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/scan-lecture6.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/ROOT-primer.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/howtostart.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/exercise-1.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/templates-exercises-1http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercises-1http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercise-2.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/templates-exercises-2http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercises-2http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercise-3.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/templates-exercises-3http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercises-3http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercise-4.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/exercise-5.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/templates-exercises-5http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercises-5http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercise-6.pdfhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/templates-exercises-6http://www.desy.de/~jung/qcd_and_mc_2009-2010/exercises-6shapeimage_2_link_0shapeimage_2_link_1shapeimage_2_link_2shapeimage_2_link_3shapeimage_2_link_4shapeimage_2_link_5shapeimage_2_link_6shapeimage_2_link_7shapeimage_2_link_8shapeimage_2_link_9shapeimage_2_link_10shapeimage_2_link_11shapeimage_2_link_12shapeimage_2_link_13shapeimage_2_link_14shapeimage_2_link_15shapeimage_2_link_16shapeimage_2_link_17shapeimage_2_link_18shapeimage_2_link_19shapeimage_2_link_20shapeimage_2_link_21shapeimage_2_link_22shapeimage_2_link_23shapeimage_2_link_24shapeimage_2_link_25shapeimage_2_link_26shapeimage_2_link_27shapeimage_2_link_28shapeimage_2_link_29shapeimage_2_link_30shapeimage_2_link_31
Literature: Partons in QCD G. Altarelli, Phys. Rept 81 (1981) Collider Physics V.D. Barger & R.J.N. Phillips Deep Inelastic Scattering. R. Devenish & A. Cooper-Sarkar Basics of pQCD Y. Dokshitzer,V. Khoze, Al Mueller, S. Troyan QCD and collider physics R.K. Ellis & W.J. Stirling & B.R. Webber Applications of pQCD R.D. Field Quarks and Leptons F. Halzen & A.D. Martin Handbook of pQCD G. Sterman et al Monte Carlo Tutorial J. Vermaseren (Nikhef) 2008 C++/ROOT (Tutorial) B.List (University Hamburg) 2007 http://www.lpthe.jussieu.fr/~yuri/BPQCD/cover.htmlhttp://www.hep.phy.cam.ac.uk/theory/webber/QCDbook.htmlhttp://www.desy.de/~jung/qcd_and_mc_2009-2010/R.Field-Applications-of-pQCD.pdfhttp://www.phys.psu.edu/~cteq/#Handbookhttp://www.nikhef.nl/~form/maindir/courses/http://www.desy.de/~blist/summerstudents/summer_lectures.2007cpp.htmlshapeimage_3_link_0shapeimage_3_link_1shapeimage_3_link_2shapeimage_3_link_3shapeimage_3_link_4shapeimage_3_link_5

Email Me: hannes.jung@desy.de

Results of the lecture evaluation by students