Transport Equations for Semiconductors

Semiconductor devices are ubiquitous in the modern computer and telecommunications industry. A precise knowledge of the transport equations for electron flow in semiconductors when a voltage is applied is therefore of paramount importance for further technological breakthroughs. In the present work,...

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Détails bibliographiques
Cote:Libro Electrónico
Auteur principal: Jüngel, Ansgar (Auteur)
Collectivité auteur: SpringerLink (Online service)
Format: Électronique eBook
Langue:Inglés
Publié: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2009.
Édition:1st ed. 2009.
Collection:Lecture Notes in Physics, 773
Sujets:
Condensed matter.
Spectrum analysis.
Optical materials.
Mathematical physics.
Condensed Matter Physics.
Spectroscopy.
Optical Materials.
Mathematical Methods in Physics.
Accès en ligne:Texto Completo
Table des matières:
  • Basic Semiconductor Physics
  • Microscopic Semi-Classical Models
  • Derivation of Macroscopic Equations
  • Collisionless Models
  • Scattering Models
  • Macroscopic Semi-Classical Models
  • Drift-Diffusion Equations
  • Energy-Transport Equations
  • Spherical Harmonics Expansion Equations
  • Diffusive Higher-Order Moment Equations
  • Hydrodynamic Equations
  • Microscopic Quantum Models
  • The Schr#x00F6;dinger Equation
  • The Wigner Equation
  • Macroscopic Quantum Models
  • Quantum Drift-Diffusion Equations
  • Quantum Diffusive Higher-Order Moment Equations
  • Quantum Hydrodynamic Equations.

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