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This book is an introduction to quantum states and of their
scattering in semiconductor nanostructures. Written with exercises
and detailed solutions, it is designed to enable readers to start
modelling actual electron states and scattering in nanostructures.
It first looks at practical aspects of quantum states and
emphasises the variational and perturbation approaches. Following
this there is analysis of quasi two-dimensional materials,
including discussion of the eigenstates of nanostructures,
scattering mechanisms and their numerical results.Focussing on
practical applications, this book moves away from standard
discourse on theory and provides students of physics,
nanotechnology and materials science with the opportunity to fully
understand the electronic properties of nanostructures.
This book is an introduction to quantum states and of their
scattering in semiconductor nanostructures. Written with exercises
and detailed solutions, it is designed to enable readers to start
modelling actual electron states and scattering in nanostructures.
It first looks at practical aspects of quantum states and
emphasises the variational and perturbation approaches. Following
this there is analysis of quasi two-dimensional materials,
including discussion of the eigenstates of nanostructures,
scattering mechanisms and their numerical results.Focussing on
practical applications, this book moves away from standard
discourse on theory and provides students of physics,
nanotechnology and materials science with the opportunity to fully
understand the electronic properties of nanostructures.
This is an overview of different models and mechanisms developed to
describe the capture and relaxation of carriers in quantum-dot
systems. Despite their undisputed importance, the mechanisms
leading to population and energy exchanges between a quantum dot
and its environment are not yet fully understood. The authors
develop a first-order approach to such effects, using elementary
quantum mechanics and an introduction to the physics of
semiconductors. The book results from a series of lectures given by
the authors at the Master's level.
This is an overview of different models and mechanisms developed to
describe the capture and relaxation of carriers in quantum-dot
systems. Despite their undisputed importance, the mechanisms
leading to population and energy exchanges between a quantum dot
and its environment are not yet fully understood. The authors
develop a first-order approach to such effects, using elementary
quantum mechanics and an introduction to the physics of
semiconductors. The book results from a series of lectures given by
the authors at the Master's level.
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