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Nanoscience and Technology Ser.: Quantum Dots by Arkadius Wojs, Pawel Hawrylak and Lucjan Jacak (1998, Hardcover)
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- Sofort-KaufenQUANTENPUNKTE (NANOWISSENSCHAFTEN UND TECHNOLOGIE) von Lucjan Jacak & Pawel Hawrylak HC
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Über dieses Produkt
Product Identifiers
PublisherSpringer
ISBN-103540636536
ISBN-139783540636533
eBay Product ID (ePID)707979
Product Key Features
Number of PagesVIII, 176 Pages
Publication NameQuantum Dots
LanguageEnglish
SubjectMaterials Science / General, Physics / Quantum Theory, Nanotechnology & Mems, Electronics / General
Publication Year1998
TypeTextbook
AuthorArkadius Wojs, Pawel Hawrylak, Lucjan Jacak
Subject AreaTechnology & Engineering, Science
SeriesNanoscience and Technology Ser.
FormatHardcover
Dimensions
Item Height0.3 in
Item Weight14.8 Oz
Item Length9.3 in
Item Width6.1 in
Additional Product Features
Intended AudienceScholarly & Professional
LCCN97-032688
Dewey Edition21
Number of Volumes1 vol.
IllustratedYes
Dewey Decimal537.6/22
Table Of Content1. Introduction, 2. Creation and structure of quantum dots, 3. Single-particle states of quantum dots, 4. Properties of an interacting system, 5. Intra-band optical transitions, 6. Inter-band optical transitions, 7. Capacitance spectroscopy, 8. Description of the properties of self-assembled quantum dots within the band-structure model, 9. Description of a many-electron quantum dot with the inclusion of the spin-orbit interaction, 10. Description of an exciton in a quantum dot within the effective-mass approximation
SynopsisWe present an overview of the theoretical background and experimental re sults in the rapidly developing field of semiconductor quantum dots - systems 8 6 of dimensions as small as 10- -10- m (quasi-zero-dimensional) that contain a small and controllable number (1-1000) of electrons. The electronic structure of quantum dots, including the energy quan tization of the single-particle states (due to spatial confinement) and the evolution of these (Fock-Darwin) states in an increasing external magnetic field, is described. The properties of many-electron systems confined in a dot are also studied. This includes the separation of the center-of-mass mo tion for the parabolic confining potential (and hence the insensitivity of the transitions under far infrared radiation to the Coulomb interactions and the number of particles - the generalized Kohn theorem) and the effects due to Coulomb interactions (formation of the incompressible magic states at high magnetic fields and their relation to composite jermions), and finally the spin-orbit interactions. In addition, the excitonic properties of quantum dots are discussed, including the energy levels and the spectral function of a single exciton, the relaxation of confined carriers, the metastable states and their effect on the photoluminescence spectrum, the interaction of an exciton with carriers, and exciton condensation. The theoretical part of this work, which is based largely on original re sults obtained by the authors, has been supplemented with descriptions of various methods of creating quantum-dot structures., This book deals with basic structures important for a new kiund of electronics and optoelectronics, to proceed from microelectronics to nanoelectronics., We present an overview of the theoretical background and experimental re sults in the rapidly developing field of semiconductor quantum dots - systems 8 6 of dimensions as small as 10- -10- m (quasi-zero-dimensional) that contain a small and controllable number (1-1000) of electrons. The electronic structure of quantum dots, including the energy quan tization of the single-particle states (due to spatial confinement) and the evolution of these (Fock-Darwin) states in an increasing external magnetic field, is described. The properties of many-electron systems confined in a dot are also studied. This includes the separation of the center-of-mass mo tion for the parabolic confining potential (and hence the insensitivity of the transitions under far infrared radiation to the Coulomb interactions and the number of particles - the generalized Kohn theorem) and the effects due to Coulomb interactions (formation of the incompressible magic states at high magnetic fields and their relation to composite jermions), and finally the spin-orbit interactions. In addition, the excitonic properties of quantum dots are discussed, including the energy levels and the spectral function of a single exciton, the relaxation of confined carriers, the metastable states and their effect on the photoluminescence spectrum, the interaction of an exciton with carriers, and exciton condensation. The theoretical part of this work, which is based largely on original re sults obtained by the authors, has been supplemented with descriptions of various methods of creating quantum-dot structures."
LC Classification NumberTA1750-1750.22T174.
