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Remarkable advances in semiconductor growth and processing
technologies continue to have a profound impact on condensed-matter
physics and to stimulate the invention of novel optoelectronic
effects. Intensive research on the behaviors of free carriers has
been carried out in the two-dimensional systems of semiconductor
heterostructures and in the one and zero-dimensional systems of
nanostructures created by the state-of-the-art fabrication methods.
These studies have uncovered unexpected quantum mechanical
correlations that arise because of the combined effects of strong
electron-electron interactions and wave function confinement
associated with reduced dimensionality. The investigations of these
phenomena are currently at the frontiers of condensed-matter
physics. They include areas like the fractional quantum Hall
effect, the dynamics of electrons on an ultra short (femtosecond)
time scale, electron behavior in quantum wires and dots, and
studies of electron tunneling phenomena in ultra small
semiconductor structures. Optical techniques have made important
contributions to these fields in recent years, but there has been
no coherent review of this work until now. The book provides an
overview of these recent developments that will be of interest to
semiconductor materials scientists in university, government and
industrial laboratories.
Remarkable advances in semiconductor growth and processing
technologies continue to have a profound impact on condensed-matter
physics and to stimulate the invention of novel optoelectronic
effects. Intensive research on the behaviors of free carriers has
been carried out in the two-dimensional systems of semiconductor
heterostructures and in the one and zero-dimensional systems of
nanostructures created by the state-of-the-art fabrication methods.
These studies have uncovered unexpected quantum mechanical
correlations that arise because of the combined effects of strong
electron-electron interactions and wave function confinement
associated with reduced dimensionality. The investigations of these
phenomena are currently at the frontiers of condensed-matter
physics. They include areas like the fractional quantum Hall
effect, the dynamics of electrons on an ultra short (femtosecond)
time scale, electron behavior in quantum wires and dots, and
studies of electron tunneling phenomena in ultra small
semiconductor structures. Optical techniques have made important
contributions to these fields in recent years, but there has been
no coherent review of this work until now. The book provides an
overview of these recent developments that will be of interest to
semiconductor materials scientists in university, government and
industrial laboratories.
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