Linear and Nonlinear Optical Properties of Germanium and Dilute Nitride Containing Semiconductors

Linear and Nonlinear Optical Properties of Germanium and Dilute Nitride Containing Semiconductors

The description of the interaction between light and matter is the basis of our understanding of the electro-optical properties of semiconductors. It is of special importance for semiconductor laser systems. The gain medium of these systems is described with the help of a microscopic many-body theor...

Popoln opis

Shranjeno v:
Bibliografske podrobnosti
Glavni avtor: Springer, Phillip
Drugi avtorji: Koch, Stephan W. (Prof. Dr.) (BetreuerIn (Doktorarbeit))
Format: Dissertation
Jezik:angleščina
Izdano: Philipps-Universität Marburg 2016
Teme:
exciton
optical properties
Halbleiter
Photolumineszenz
Vielteilchentheorie
Optische Eigenschaft
semiconductor
theoretical physics
Niederdimensionaler Halbleiter
Physik
Theoretische Physik
terahertz spectroscopy
Therahertz Spektroskopie
Exziton
Physics
Online dostop:PDF-Volltext
Oznake: Označite
Brez oznak, prvi označite!
Opis
Izvleček:The description of the interaction between light and matter is the basis of our understanding of the electro-optical properties of semiconductors. It is of special importance for semiconductor laser systems. The gain medium of these systems is described with the help of a microscopic many-body theory. In this work, such a theory is applied to calculate the photoluminescence of dilute nitride containing semiconductors. Theory-experiment comparisons enable the determination of formerly controversially discussed system parameters of this material class, which represents a promising candidate for more efficient lasers. It is shown that the discontinuity of a GaAs/Ga(NAs) interface is type I. Similarly, a microscopic theory can be applied to calculate the absorption of semiconductors. In this work, the coherent absorption of pump-probe experiments in Ge and (GaIn)As quantum wells is modeled. The experimental findings are reproduced if different dephasing mechanisms are assumed for the samples; a consequence of the different nature of the band gap (direct or indirect). Additionally, the terahertz absorption for indirect semiconductors is modeled. For this purpose, the microscopic many-body theory is extended to include systems with mass anisotropy. On the example of Ge and Si, it is shown that as a result of the mass anisotropy, two distinct resonances appear in the terahertz absorption spectrum.
Fizični opis:101 Seiten
DOI:10.17192/z2016.0213

Podobne knjige/članki