"Fingerprints in the Optical and Transport Properties of Quantum Dots" ed. by Ameenah Al-Ahmadi
InTeO | 2012 | ISBN: 9535106487 9789535106487 | 477 pages | PDF | 20 MB
InTeO | 2012 | ISBN: 9535106487 9789535106487 | 477 pages | PDF | 20 MB
The book provides novel and efficient methods for the calculation and investigating of the optical and transport properties of quantum dot systems. This is a collaborative book sharing and providing the academic community with a base text that could serve as a reference in research by presenting up-to-date research work on the field of quantum dot systems.
This book is divided into two sections.
In section 1 includes ten chapters where novel optical properties are discussed. In section 2 involve eight chapters that investigate and model the most important effects of transport and electronics properties of quantum dot systems This is a collaborative book sharing and providing fundamental research such as the one conducted in Physics, Chemistry, Material Science, with a base text that could serve as a reference in research by presenting up-to-date research work on the field of quantum dot systems.
Contents
Section 1 Optical Properties of Quantum Dot Systems
1 InAs Quantum Dots of Engineered Height for Fabrication of Broadband Superluminescent Diodes
2 Influence of Optical Phonons on Optical Transitions in Semiconductor Quantum Dots
3 Temperature-Dependent Optical Properties of Colloidal IV-VI Quantum Dots, Composed of Core/Shell Heterostructures with Alloy Components
4 Optical Properties of Spherical Colloidal Nanocrystals
5 Molecular States of Electrons: Emission of Single Molecules in Self-Organized InP/GalnP Quantum Dots
6 InAs Quantum Dots in Symmetric InGaAs/GaAs Quantum Wells
7 Photoionization Cross Sections of Atomic Impurities in Spherical Quantum Dots
8 Exciton States in Free-Standing and Embedded Semiconductor Nanocrystals
9 In-Gap State of Lead Chalcogenides Quantum Dots
10 Exciton Dynamics in High Density Quantum Dot Ensembles
Section 2 Transport and Eletromcs Properties of Quantum Dot Systems
11 Electron Transport Properties of Gate-Defined GaAs/AlxGa1-xAs Quantum Dot
12 Tunneling Atomic Force Microscopy of Self-Assembled ln(Ga)As/GaAs Quantum Dots and Rings and of GeSi/Si(001) Nanoislands
13 Quantum Injection Dots
14 Quantum Mechanics of Semiconductor Quantum Dots and Rings
15 Non-Equilibrium Green Functions of Electrons in Single-Level Quantum Dots at Finite Temperature
16 Electron Scattering Through a Quantum Dot
17 Coherent Spin Dependent Transport in QD-DTJ Systems
18 The Thermopower of a Quantum Dot Coupled to Luttinger Liquid System
