Theory of radiation for boundedmedia systems with highly correlatedelectron-hole plasmasDissertationzur Erlangung des akademischen Gradesdoctor rerum naturalium (Dr. rer. nat.)der Mathematisch-Naturwissenschaftlichen Fakultätder Universität Rostockvorgelegt vonFelix Richter, geb. am 27. November 1978 in PaderbornRostock, 31. Juli 20091. Gutachter: Prof. Dr. K. Henneberger, Universität Rostock2. Prof. Dr. F. Jahnke, Universität Bremen3. Gutachter: Prof. Dr. H. Stolz, RostockTag der Verteidigung: 17. November 2009Adresse: Universität RostockInstitut für Physik18051 RostockInternet: http://www.physik3.uni-rostock.deAbstractThe theory of light propagation in media needs to consider a vastnumber of effects arising from the coupling of the many-body sys-tem of the medium with the photon field. The breach of transla-tional invariance in bounded media is an additional complication. Theproblem is described quantum-statistically by nonequilibrium Green’sfunctions. Essential advantages for the further analysis arise from thefact that the contribution of incident light splits off from the photonfield propagators. This property provides insight into the interplay ofthe excitations of light and matter as well as into the mechanisms ofemission. A radiation law valid for bounded media in nonequilibriumsteady states is derived and discussed in the context of optical proper-ties of excited semiconductors.