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A physics book that covers the optical properties of
quantum-confined semiconductor nanostructures from both the
theoretical and experimental points of view together with
technological applications. Topics to be reviewed include quantum
confinement effects in semiconductors, optical adsorption and
emission properties of group IV, III-V, II-VI semiconductors,
deep-etched and self assembled quantum dots, nanoclusters, and
laser applications in optoelectronics.
A physics book that covers the optical properties of
quantum-confined semiconductor nanostructures from both the
theoretical and experimental points of view together with
technological applications. Topics to be reviewed include quantum
confinement effects in semiconductors, optical adsorption and
emission properties of group IV, III-V, II-VI semiconductors,
deep-etched and self assembled quantum dots, nanoclusters, and
laser applications in optoelectronics.
Progress in nanoscale engineering, as well as an improved
understanding of the physical phenomena at the nanometer scale,
have contributed to the rapid development of novel nanostructured
semiconducting materials and nanodevices. Using new approaches,
semiconductor structures can be fabricated with sub-nanometer
accuracy and precisely controlled electronic and optical
properties. The immense technological potential and new exciting
physics have stimulated interest in semiconductor nanostructures
over several years. This book brings together a single
comprehensive overview of recent progress and future directions in
nanoscale semiconductor research. Fields ranging from materials
science to physics, chemistry, electrical and microelectronic
engineering, circuit design, and more, are represented. Topics
include: quantum dot theory, growth and optics; single quantum dot
spectroscopy; charge and spin; Si/Ge quantum dot structures;
bio-quantum dots; electric force microscopy and charge injection;
transport; Si nanocrystals and nc-Si superlattices; Si/Ge
nanostructures; bioactive nanostructures; lithographic techniques
and lateral nanopatterning; semiconductor nanowires and nanotubes;
metallic and rare-earth-doped nanoparticles; theoretical studies
and numerical simulations in Si/SiGe nanostructures and
applications of Group IV nanoscale materials.
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