QCD and collider physics
Lecture WS 2005/2006
University Hamburg

Hannes Jung

Wednesday 11:00 – 12:30 
DESY - Sem 2


Program:

9.11.	sem 2	Intro to Deep Inelastic Scattering: kinematics, cross sections, QPM
16.11.	sem 2	Renormalisation and Evolution
23.11.	sem 2	Renormalisation and Evolution II
30.11.	sem 2	DGLAP and all that
7.12.	sem 2	DGLAP, small x and all that
14.12.	61/Hoersaal	Small x evolution: BFKL/CCFM
21.12.	sem 2	Exercises example file for form Solution to selected exercises by Zhenyu Ye (Frank)
11.1.	sem 2	Small x (continued)
18.1.	sem 2	Jets in LO/NLO
25.1.	sem 2	Jets and Heavy Quarks in LO/NLO and Fragmentation
1.2.	sem 2	Heavy Quarks, Fragmentation and Hadronization
8.2.	sem 2	Parton Showers, Hadronization and Diffraction
15.2.	sem 2	Diffraction II
22.2.	Lab1/sem 1	Diffraction III (high density systems)
1.3.	sem 2 11:30	Structure of the photon; Resumee of lectures, discussion and questions

Literature (in alphabetic order):

Applications of pQCD	R.D. Field	Addison-Wesley 1989
Basics of perturbative QCD	Yu. Dokshitzer & V. Khoze & A. Mueller & S. Troyan	Edition Frontiers 1991
Collider Physics	V.D. Barger & R.J.N. Phillips	Addison-Wesley 1987
Deep Inelastic Scattering.	R. Devenish & A. Cooper-Sarkar	Oxford 2004
Handbook of pQCD	G. Sterman et al,
High-Energy Particle Diffraction	V. Barone & E. Predazzi	Springer 2002
Quarks and Leptons	F. Halzen & A.D. Martin	J.Wiley 1984
QCD and collider physics	R.K. Ellis & W.J. Stirling & B.R. Webber	Cambridge 1996
QCD at HERA	M. Kuhlen	Springer 1999
Quantum Field Theory	F. Mandl & G. Shaw	Wiley, 1993
The Lund Model	Bo Andersson	Cambridge 1998
The Partonic Structure of the Photon	M. Erdmann	Springer 1997
The Structure of the Proton	R.G. Roberts	Cambridge 1990

Example FORM-programs:

gamma*  gluon → quark anti-quark (BGF, with full polarisation sums for tranverse and long. photons)

gamma*  quark → gluon quark (QCDC, in massive gluon scheme)

gamma*  gluon → quark anti-quark (BGF, in massive gluon scheme)

Exercises: