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Transport Equations for Semiconductors
Langbeschreibung
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, the author tackles their derivation in a systematic and rigorous way, depending on certain key parameters such as the number of free electrons in the device, the mean free path of the carriers, the device dimensions and the ambient temperature. Accordingly a hierarchy of models is examined which is reflected in the structure of the book: first the microscopic and macroscopic semi-classical approaches followed by their quantum-mechanical counterparts.
Hauptbeschreibung
First self-contained text that presents a systematic and mathematically accurate description and derivation of transport equations in solid state physics, in particular semiconductor devices
Inhaltsverzeichnis
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.
ISBN-13:
9783642100475
Veröffentl:
2010
Erscheinungsdatum:
22.10.2010
Seiten:
336
Autor:
Ansgar Jüngel
Gewicht:
511 g
Format:
235x155x19 mm
Serie:
773, Lecture Notes in Physics
Sprache:
Englisch
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