Introduction to quantum-field-theoretical methods relevant for research in heavy-ion physics (quark-gluon plasma) and physics of the early universe (electro-weak and strong phase transitions, cosmological perturbations)
1. Introduction: Statistical quantum mechanics, relativistic thermodynamics, propagators of many-body systems, perturbation theory, Matsubara formalism, Keldysh formalism, gauge theories at finite temperature; 2. Applications: 2.1. Collective phenomena in a relativistic plasma: quasi-particle spectrum in QED and QCD plasma, improvements of perturbation theory; 2.2. Phase transitions in the standard model of elementary particle physics: spontaneous symmetry breaking and symmetry restoration at high temperature, effective potential
The lecture will be postponed to the summer term 2017.
mündlich
Not necessary
Basic knowledge of quantum field theory recommended but not mandatory