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E-grāmata: Superlattices and Other Heterostructures: Symmetry and Optical Phenomena

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  • Formāts: PDF+DRM
  • Sērija : Springer Series in Solid-State Sciences 110
  • Izdošanas datums: 06-Dec-2012
  • Izdevniecība: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Valoda: eng
  • ISBN-13: 9783642606502
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Superlattices and Other Heterostructures: Symmetry and Optical PhenomenaPalielināt
  • Formāts: PDF+DRM
  • Sērija : Springer Series in Solid-State Sciences 110
  • Izdošanas datums: 06-Dec-2012
  • Izdevniecība: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Valoda: eng
  • ISBN-13: 9783642606502
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Superlattices and Other Heterostructures deals with optical properties of superlattices and quantum-well structures with emphasis on phenomena governed by crystal symmetries. After a brief introduction to group theory and symmetries, methods to calculate spectra of electrons, excitions and phonons in heterostructures are discussed. Further chapters cover absorption and reflection of light under interband transitions, cyclotron and electron spin-resoncance, light scattering by free and bound carriers and by optical and acoustic phonons, polarized photoluminescence, optical spin orientation of electrons and excitions, and nonlinear optical and photogalvanic effects.

Papildus informācija

Springer Book Archives
1 Quantum Wells and Superlattices.- 2 Crystal Symmetry.- 2.1 Symmetry
Operations, Groups.- 2.2 Point-Group Classification.- 2.3 Space Groups.- 2.4
Group Representations, Characters.- 2.5 Point-Group Representations.- 2.6
Spinor Representations.- 2.7 Representations of Space Groups.- 2.8Invariance
Under Time Inversion.- 2.9 Selection Rules.- 2.10 Determination of Linearly
Independent Components of Material Tensors.- 3 Electron Spectrum in Crystals,
Quantum Wells and Superlattices.- 3.1 The k-p Method.- 3.2 The Effective-Mass
Method; Deformation Potential.- 3.3 Method of Invariants.- 3.4 Electron and
Hole Spectrum in Diamond-and Zincblende-Type Cubic Crystals.- 3.5 Electron
Spectra of Quantum Wells and Superlattices.- 3.6 Hole Spectrum in Quantum
Wells and Superlattices for Degenerate Bands.- 3.7 Deformed and Strained
Superlattices.- 3.8 Quantum Wells and Superlattices in a Magnetic Field.- 3.9
Spectrum of Quantum Wells and Superlattices in an Electric Field.- 4
Vibrational Spectra of Crystals and Superlattices Electron-Phonon
Interaction.- 4.1 Normal Vibrations: Distribution in Irreducible
Representations.- 4.2 Vibrational Spectra of Superlattices.- 4.3
Electron-Phonon Interaction.- 5 Localized Electron States and Excitons in
Heterostructures.- 5.1 Shallow Impurity Centers.- 5.2 Localized States at
Superlattice Defects.- 5.3 Excitons.- 5.4 Exchange Splitting of Exciton
Levels.- 6 Interband Optical Transitions.- 6.1 Optical Superlattices.- 6.2
Interband Transitions and Dielectric Susceptibility of a Periodic
Heterostructure.- 6.3 Coulomb Interaction Between the Electron and the Hole.-
6.4 Exciton Polaritons in an Optical Superlattice.- 6.5 Light Reflection.-
6.6 Electro-Optical Effects in Interband Transitions.- 6.7 Magneto-Optical
Spectra.- 7 ntraband Transitions.- 7.1 Cyclotron Resonance and Effective
Electron Mass.- 7.2 Intersubband Absorption.- 7.3 Electron-Spin Resonance.-
7.4 IR Reflection in an Undoped Superlattice.- 8 Light Scattering.- 8.1
Theory of Light Scattering in Semiconductors.- 8.2 Scattering by Intersubband
Excitations.- 8.3 Scattering by Acoustical Phonons with a Folded Dispersion
Law.- 8.4 Scattering by Optical Phonons in Heterostructures.- 8.5 Acceptor
Spin-Flip Raman Scattering.- 9 Polarized Luminescence in Quantum Wells and
Superlattices.- 9.1 Luminescence as a Tool to Study Electronic Spectra and
Kinetic Processes in Two-Dimensional Systems.- 9.2 Luminescence in the
Quantum Hall Regime, Quantum Beats.- 9.3 Optical Spin Orientation and
Alignment of Electron Momenta.- 9.4 Optical Orientation and Alignment of
Excitons.- 9.5 Polarized Luminescence of Excitons and Impurities in an
External Magnetic Field.- 10 Nonlinear Optics.- 10.1 Two-Photon Absorption.-
10.2 Photoreflectance.- 10.3 Diffraction from a Light-Induced Spatial
Grating.- 10.4 Third-Harmonic Generation.- 10.5 Linear and Circular
Photogalvanic (Photovoltaic) Effects.- 10.6 Current of Optically Oriented
Electrons.- 10.7 Photon Drag Current.
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