Quantum Dots: Fundamentals, Applications, and Frontiers [E-Book] : Proceedings of the NATO ARW on Quantum Dots: Fundamentals, Applications and Frontiers, Crete, Greece 20 - 24 July 2003 / edited by Bruce A. Joyce, Pantelis C. Kelires, Anton G. Naumovets, Dimitri Vvedensky.
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Full text |
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Personal Name(s): | Joyce, Bruce A., editor |
Kelires, Pantelis C., editor / Naumovets, Anton G., editor / Vvedensky, Dimitri, editor | |
Edition: |
1st edition 2005. |
Imprint: |
Dordrecht :
Springer,
2005
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Physical Description: |
XVI, 396 pages (online resource) |
Note: |
englisch |
ISBN: |
9781402033155 |
DOI: |
10.1007/1-4020-3315-X |
Series Title: |
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NATO Science Series II: Mathematics, Physics and Chemistry, Mathematics, Physics and Chemistry ;
190 |
Subject (LOC): |
- Atomistic Processes during Quantum Dot Formation
- Quantum Dots in the InAs/GaAs System
- First-Principles Study of InAs/GaAs(001) Heteroepitaxy
- Formation of Two-Dimensional Si/Ge Nanostructures Observed by STM
- Diffusion, Nucleation and Growth on Metal Surfaces
- The Stranski-Krastanov Transition
- The Mechanism of the Stranski-Krastanov Transition
- Off-Lattice KMC Simulations of Stranski-Krastanov-Like Growth
- Temperature Regimes of Strain-Induced InAs Quantum Dot Formation
- Kinetic Modelling of Strained Films: Effects of Wetting and Facetting
- Ge/Si Nanostructures with Quantum Dots Grown by Ion-Beam-Assisted Heteroepitaxy
- Self-Assembly of Quantum Dot Arrays
- Lateral Organization of Quantum Dots on a Patterned Substrate
- Some Thermodynamic Aspects of Self-Assembly of Quantum Dot Arrays
- The Search for Materials with Self-Assembling Properties: The Case of Si-Based Nanostructures
- Structure and Composition of Quantum Dots
- X-Ray Scattering Methods for the Study of Epitaxial Self-Assembled Quantum Dots
- Carbon-Induced Ge Dots On Si(100): Interplay of Strain and Chemical Effects
- Growth Information Carried by Reflection High-Energy Electron Diffraction
- Electrons and Holes in Quantum Dots
- Efficient Calculation of Electron States in Self-Assembled Quantum Dots: Application to Auger Relaxation
- Quantum Dot Molecules and Chains
- Collective Properties of Electrons and Holes in Coupled Quantum Dots
- Phase Transitions in Wigner Molecules
- Fast Control of Quantum States in Quantum Dots: Limits due to Decoherence
- Optical Properties of Quantum Dots
- Real SpaceAb Initio Calculations of Excitation Energies in Small Silicon Quantum Dots
- GeSi/Si(001) Structures with Self-Assembled Islands: Growth and Optical Properties
- Quantum Dots in High Electric Fields: Field and Photofield Emission from Ge Nanoclusters on Si(100)
- Optical Emission Behavior of Si Quantum Dots
- Strain-Driven Phenomena upon Overgrowth of Quantum Dots: Activated Spinodal Decomposition and Defect Reduction.