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Electronics and optics of solids --- Electric properties. --- Energy levels (Quantum mechanics) --- Lattice dynamics. --- Magnetic properties. --- Optical properties. --- Semiconductor junctions

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Physics of Thin Films is one of the longest running continuing series in thin film science, consisting of twenty volumes since 1963. The series contains quality studies of the properties of various thinfilms materials and systems.In order to be able to reflect the development of today's science and to cover all modern aspects of thin films, the series, starting with Volume 20, has moved beyond the basic physics of thin films. It now addresses the most important aspects of both inorganic and organic thin films, in both their theoretical as well as technological aspects. Therefore, in

Semiconductors --- Quantum wells. --- Infrared detectors. --- Wells, Quantum --- Energy-band theory of solids --- Potential theory (Physics) --- Junctions, Semiconductor --- Semiconductor interface --- Semiconductor interfaces --- Semiconductor junctions --- Interfaces (Physical sciences) --- Junctions. --- Interfaces

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621.382 --- Junction transistors --- Semiconductors --- -#KVIV --- Crystalline semiconductors --- Semi-conductors --- Semiconducting materials --- Semiconductor devices --- Crystals --- Electrical engineering --- Electronics --- Solid state electronics --- Electric current rectifiers --- Transistors --- Tunnel diodes --- Electronic devices using solid-state effects. Semiconductor devices --- Junctions --- Materials --- Junction transistors. --- Junctions. --- 621.382 Electronic devices using solid-state effects. Semiconductor devices --- #KVIV --- Junctions, Semiconductor --- Semiconductor interface --- Semiconductor interfaces --- Semiconductor junctions --- Interfaces (Physical sciences) --- Interfaces

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Significant progress has occurred during the last few years in device technologies and these are surveyed in this new volume. Included are Si/(Si-Ge) heterojunctions for high-speed integrated circuits, Schottky-barrier arrays in Si and Si-Ge alloys for infrared imaging, III-V quantum-well detector structures operated in the heterodyne mode for high-data-rate communications, and III-V heterostructures and quantum-wells for infrared emissions.

Semiconductors --- Thin films, Multilayered. --- Epitaxy. --- Quantum wells. --- Infrared detectors. --- Wells, Quantum --- Energy-band theory of solids --- Potential theory (Physics) --- Epitaxial growth --- Crystal growth --- Langmuir-Blodgett films --- Multilayered thin films --- Junctions, Semiconductor --- Semiconductor interface --- Semiconductor interfaces --- Semiconductor junctions --- Interfaces (Physical sciences) --- Junctions. --- Interfaces

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A comprehensive overview of the physical mechanisms that control electron transport and the characteristics of metal-molecule-metal (MMM) junctions is presented. As far as possible, methods and formalisms presented elsewhere to analyze electron transport through molecules are avoided. This title introduces basic concepts—a description of the electron transport through molecular junctions—and briefly describes relevant experimental methods. Theoretical methods commonly used to analyze the electron transport through molecules are presented. Various effects that manifest in the electron transport through MMMs, as well as the basics of density-functional theory and its applications to electronic structure calculations in molecules are presented. Nanoelectronic applications of molecular junctions and similar systems are discussed as well. Molecular electronics is a diverse and rapidly growing field. Transport Properties of Molecular Junctions presents an up-to-date survey of the field suitable for researchers and professionals.

Molecular electronics --- Transport theory --- Semiconductors --- Nanoelectronics --- Engineering & Applied Sciences --- Chemical & Materials Engineering --- Materials Science --- Technology - General --- Junctions --- Nanoscale electronics --- Nanoscale molecular electronics --- Crystalline semiconductors --- Semi-conductors --- Semiconducting materials --- Semiconductor devices --- Boltzmann transport equation --- Transport phenomena --- Molectronics --- Materials science. --- Physics. --- Electronics. --- Microelectronics. --- Nanotechnology. --- Materials Science. --- Electronics and Microelectronics, Instrumentation. --- Applied and Technical Physics. --- Molecular electronics. --- Transport theory. --- Nanoelectronics. --- Molekularelektronik. --- Junctions. --- Moletronik --- Molekulare Elektronik --- Mikroelektronik --- Nanoelektronik --- Electronics --- Nanotechnology --- Junctions, Semiconductor --- Semiconductor interface --- Semiconductor interfaces --- Semiconductor junctions --- Interfaces (Physical sciences) --- Mathematical physics --- Particles (Nuclear physics) --- Radiation --- Statistical mechanics --- Microelectronics --- Interfaces --- Electrical engineering --- Physical sciences --- Molecular technology --- Nanoscale technology --- High technology --- Natural philosophy --- Philosophy, Natural --- Dynamics --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Microtechnology --- Miniature electronic equipment