|
|
Comments on Courses and Lectures:
| Course |
Type |
Day |
Time |
Room |
Beginning |
Instructor |
CPs |
Co.No. |
| Physics with relativistic heavy ions |
L2 |
Thu |
16.15-17.55 |
S214/208 |
04/18 |
Braun-Munzinger |
7,0 |
05.134.1 |
| Physics with relativistic heavy ions |
E1 |
Fri |
16.15-17.00 |
S214/208 |
04/19 |
Braun-Munzinger/ Miskowiec |
 |
05.134.2 |
Syllabus:
0. Introduction, Phase Diagram of Nuclear Matter, Connection to the
Big Bang
1. Relativistic Kinematics
2. Differential Cross Sections
3. Particle Production at High Energies
4. Lattice QCD and Phase transition to the Quark-Gluon Plasma
5. Thermodynamics of Relativistic Gases
6. Experimental Aspects
a. Interaction of Particles with Matter
b. Detectors for Particle Radiation
7. Production of a New State of Matter in Heavy Ion Collisions at the
AGS and SPS Accelerators
8. First Results from RHIC
9. Outlook, The Collidier era at LHC |
Prerequisites (necessary knowledge):
A Course in Modern Physics equivalent to Physik IV and an
Introductory Course in Nuclear or Particle Physics or equivalent. |
Relevant Literature:
Introduction to Relativistic Heavy Ion Physics, L.P. Csernai, John Wiley
and Sons, Chichester, England, 1994 |
Course Cycle:
Course Language:
German or optionally English |
|
![[Abstandhalter]](/masterfiles/images/space.gif "[Abstandhalter]"){kind=small}
![[Abstandhalter]](/masterfiles/images/blue60x1.gif "[Abstandhalter]"){kind=small}
![[Abstandhalter]](/masterfiles/images/white10x1.gif "[Abstandhalter]")
Braun-Munzinger
·
Last Change:
![[Abstandhalter]](/masterfiles/images/blue10x1.gif "[Abstandhalter]")
