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Polarization Fluctuations and Dynamics of Vertical-Cavity Surface-Emitting Lasers
The theoretical description of spatially extended VCSELs consequently has to consider two transverse dimensions and two polarizations. In this... -
Introduction to Semiconductor Lasers
Every laser consists of or involves -- principle -- vital parts or mechanisms: an active medium that allows light ampli.cation and some form of... -
High-Speed Dynamics of Semiconductor Lasers
Spatio-temporal effects are generally important for both types of semiconductor lasers, i.e. edge- and vertical-cavity surface-emitting laser (VCSEL)... -
Mesoscopic Theory for Quantum Dot Lasers
In this chapter we present a mesoscopic theory for the spatio-temporal carrier and light field dynamics in quantum dot lasers. Quantum dot... -
11. Integration of Modelling at Various Length and Time Scales
Materials modelling tools have become increasingly integrated in the R&D portfolio. The unique insights available through simulation of materials at... -
Spatially Inhomogeneous Luminescence in Semiconductor Lasers
In this chapter we discuss the theoretical basis for describing spatially inhomogeneous spontaneous and amplified spontaneous emission (luminescence)... -
Index
Index -
Physics of Carbon Nanotubes
A brief review is given on electronic and transport properties of carbon nanotubes mainly from a theoretical point of view. The topics include a... -
Non-equilibrium Transport and Relaxation in Diffusive Nanowires with Kondo Impurities
Combining non-equilibrium transport with spectroscopic measurements provides a unique tool for the investigation of the microscopic processes in... -
III-V and II-VI Mn-Based Ferromagnetic Semiconductors
A review is given of advances in the field of carrier-controlled ferromagnetism in Mn-based diluted magnetic semiconductors and their nanostructures.... -
The Chemical Route in Plasma Enhanced Low Pressure Synthesis of c-BN
In the last three years it was shown that plasma enhanced chemical vapor deposition (PECVD) is an interesting alternative to the physical route. This... -
Decoherence of Flux Qubits Coupled to Electronic Circuits
On the way to solid-state quantum computing, overcoming decoherence is the central issue. In this contribution, we discuss the modeling of... -
Atomic Structure of Alkali Halide Surfaces
The atomic structure of surfaces of alkali halide crystals has been revealed by means of high-resolution dynamic force microscopy. True atomic... -
Optical Spectroscopy of Low-Dimensional Quantum Spin Systems
Low-dimensional quantum spin systems display fascinating excitation spectra. In recent years, optical spectroscopy was shown to be a powerful tool... -
Inelastic Nuclear Resonant Scattering
Soon after the discovery of the M⊙ssbauer effect it became clear that nuclear resonant absorption would be a very sensitive tool for the... -
TM Waves at the Interface Between Two Half-Infinite Media
From electrodynamic continuum considerations one can derive bound solutions for harmonic plane waves at the interface between two infinite dielectric... -
Wurtzite-Structure Materials (Group-III Nitrides, ZnO)
The success in growing high-quality wide-band-gap group-III-nitride alloys over the past several years has led to immense effort in nitride-based... -
4 × 4 Transfer Matrix T p for Dielectric Homogeneous Films
The matrix Δ in (A.5) does not depend on z if the medium is homogeneous, i.e., ɛ is not a function of z. The solution of (A.2) for a layer with... -
4 × 4 Transfer Matrix T p for Magneto-optic Films
Consider homogeneous mediums with non-symmetric dielectric properties, i.e., materials where ɛij≠ ɛij. Examples are magnetized materials with... -
Magneto-Optic Ellipsometry
The free-charge-carrier properties effective mass m, mobility μ, and carrier concentration N are of fundamental importance for understanding basic...