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1. 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...

   Edeltraud Gehrig, Ortwin Hess in Spatio-Temporal Dynamics and Quantum Fluctuations in Semiconductor Lasers

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2. 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...

   Edeltraud Gehrig, Ortwin Hess in Spatio-Temporal Dynamics and Quantum Fluctuations in Semiconductor Lasers

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3. 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)...

   Edeltraud Gehrig, Ortwin Hess in Spatio-Temporal Dynamics and Quantum Fluctuations in Semiconductor Lasers

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4. 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...

   Edeltraud Gehrig, Ortwin Hess in Spatio-Temporal Dynamics and Quantum Fluctuations in Semiconductor Lasers

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5. 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...

   S. McGrother, G. Goldbeck-Wood, Y.M. Lam in Computational Materials Science

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6. Spatially Inhomogeneous Luminescence in Semiconductor Lasers

   In this chapter we discuss the theoretical basis for describing spatially inhomogeneous spontaneous and amplified spontaneous emission (luminescence)...

   Edeltraud Gehrig, Ortwin Hess in Spatio-Temporal Dynamics and Quantum Fluctuations in Semiconductor Lasers

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7. Index

   Index

   Edeltraud Gehrig, Ortwin Hess in Spatio-Temporal Dynamics and Quantum Fluctuations in Semiconductor Lasers

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8. 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...

   Tsuneya Ando in Advances in Solid State Physics

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9. 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...

   Johann Kroha, Achim Rosch, ... Peter Wölfle in Advances in Solid State Physics

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10. 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....

    Tomasz Dietl in Advances in Solid State Physics

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11. 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...

    A. Lunk, M. Gross, H. Wulff in Advances in Solid State Physics

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12. 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...

    F. K. Wilhelm, M. J. Storcz, ... J. E. Mooij in Advances in Solid State Physics

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13. 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...

    Roland Bennewitz, Sacha Schär, ... Ernst Meyer in Advances in Solid State Physics

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14. 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...

    Markus Grüninger, Marco Windt, ... Thilo Kopp in Advances in Solid State Physics

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15. 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...

    Ralf Röhlsberger in Nuclear Condensed Matter Physics with Synchrotron Radiation

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16. 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...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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17. 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...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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18. 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...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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19. 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...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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20. Magneto-Optic Ellipsometry

    The free-charge-carrier properties effective mass m, mobility μ, and carrier concentration N are of fundamental importance for understanding basic...

    Mathias Schubert in Infrared Ellipsometry on Semiconductor Layer Structures

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