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Quantum Dots: Research Developments de Peter A. Ling

Quantum Dots: Research Developments

Editat de Peter A. Ling
en Limba Engleză Hardback – 8 apr 2005
A quantum dot is a particle of matter so small that the addition or removal of an electron changes its properties in some useful way. All atoms are quantum dots, but multi-molecular combinations can have this characteristic. In biochemistry, quantum dots are called redox groups. In nanotechnology, they are called quantum bits or qubits. Quantum dots typically have dimensions measured in nanometers, where one nanometer is 10-9 meter or a millionth of a millimetre. The fields of biology, chemistry, computer science, and electronics are all of interest to researchers in nanotechnology. Other applications of quantum dots include nanomachines, neural networks, and high-density memory or storage media. Research is being carried out on nano-crystals, self-assembled dots, and gated structures. This book presents leading-edge research from around the world.
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Specificații

ISBN-13: 9781594544064
ISBN-10: 1594544069
Pagini: 261
Ilustrații: tables & charts
Dimensiuni: 260 x 180 x 22 mm
Greutate: 0.78 kg
Ediția:New.
Editura: Nova Science Publishers Inc
Colecția Nova Science Publishers, Inc (US)
Locul publicării:United States

Cuprins

Electronic States and Spin in Clean and Disordered Quantum Dots: Spin Density-Functional Study; Phonon Impact on the coherent Control of Quantum States in Semiconductor Quantum Dots; Spin-Dependent Transport through the Finite Array of Quantum Dots: Spin Gun; Formation and Self-Assembly of coherent Quantum Dots: some Thermodynamic Aspects; Quantum Optical Phenomena in Semiconductor Quantum Dots; Incomplete Electronic Relaxation and Level Occupation Up-Conversion in Quantum Dots; Spin-Based Quantum Information Processing with Semiconductor Quantum Dots Embedded in a Microcavity; Strong Electron Correlations and Spin-Dependent Transport in Quantum Dot Systems; Incomplete Electronic Relaxation and Level Occupation Up-Conversion in Quantum Dots; Effects of Cavity and Superradiance on the Electrical Transport through Quantum Dots; Change and Spin Conductance Through a Side-Coupled Quantum Dot; Binding Energy of Donor States in a Quantum Dot with Parabolic Confinement; Modelling of Few Particle Interactions in GaN-based Macroatoms and Its Application to Single-Electron Read-Out Devices.