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Quantum Dots: Fundamentals, Applications, and Frontiers: Proceedings of the NATO ARW on Quantum Dots: Fundamentals, Applications and Frontiers, Crete, ... Fundaments, Applications, And Frontiers: 190 - Brossura
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The morphology that results during the growth of a material on the substrate of a different material is central to the fabrication of all quantum heterostructures. This morphology is determined by several factors, including the manner in which strain is accommodated if the materials have different lattice constants. One of the most topical manifestations of lattice mis?t is the formation of coherent thr- dimensional(3D)islandsduringtheStranski–Krastanovgrowthofahighly-strained system. The prototypical cases are InAs on GaAs(001) and Ge on Si(001), though other materials combinations also exhibit this phenomenon. When the 3D islands are embedded within epitaxiallayers of a material that has a wider band gap,the carriers within the islands are con?ned by the potential barriers that surround each island, forming an array of quantum dots (QDs). Such structures have been produced for both basic physics studies and device fab- cation, including QD lasers and light-emitting diodes (LEDs) operating at the c- mercially important wavelengths of 1.3 µ m and 1.55 µ m. On a more speculative level, QD ensembles have been suggested as a possible pathway for the solid-state implementation of a quantum computer. Although some of the principles of qu- tum computing have been veri?ed by other means, the practical utilization of this new computingparadigmmay warrant some sort of solid state architecture. QDs are seen as possible components of such a computer, as evidenced by a number of papersappearingintheliteratureproposingQD-basedarchitecturesandworkshops that are being organized to explore these possibilities.
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Contenuti
Preface. Atomistic Processes during Quantum Dot Formation. Quantum Dots in the InAs/GaAs System: An Overview of their Formation; B.A. Joyce and D.D. Vvedensky. First-Principles Study of InAsIGaAs(OO1) Heteroepitaxy; E. Penev and P. Kratzer. Formation of Two-Dimensional Si/Ge Nanostructures Observed by STM; B. Voigtlander. Diffusion, Nucleation and Growth on Metal Surfaces; O. Biham et al. The Stranski―Krastanov Transition. The Mechanism of the Stranski―Krastanow Transition; A.G. Cullis et al. Off-lattice KMC Simulations of Stranski-Krastanov-Like Growth; M. Biehl and F. Much. Temperature Regimes of Strain-Induced InAs Quantum Dot Formation; C. Heyn and A. Bolz. Kinetic Modelling of Strained Films: Effects of Wetting and Facetting; D. Kandel and H.R. Eisenberg. Ge/Si Nanostructures with Quantum Dots grown by Ion-Beam-Assisted 135 Heteroepitaxy; A.V. Dvurechenskii et al. Self-Assembly of Quantum Dot Arrays. Lateral Organization of Quantum Dots on a Patterned Substrate; C. Priester. Some Thermodynamic Aspects of Self-Assembly of Arrays of Quantum Dots; J.E. Prieto and I. Markov. The Search for Materials with Self-Assembling Properties: The Case of Si-based Nanostructures; I. Goldfarb. Structure and Composition of Quantum Dots. X-Ray Scattering Methods for the Study of Epitaxial Self-Assembled Quantum Dots; J. Stangi et al. Carbon-Induced Ge Dots on Si(100): Interplay of Strain and Chemical Effects; G. Hadjisavvas et al. Growth Information Carried by Reflection High-Energy Electron Diffraction; A. Nemcsics. Electrons and Holes in Quantum Dots. Efficient Calculation of Electron States in Self-Assembled Quantum Dots: Application to Auger Relaxation; D. Chaney et al. Quantum Dot Molecules and Chains; W. Jaskólski et al. Collective Properties of Electrons and Holes in Coupled Quantum Dots; G. Goldoni et al. Phase Transitions in Wigner Molecules; J. Adamowski et al. Fast Control of Quantum States in Quantum Dots: Limits due to Decoherence; L. Jacak et al. OpticalProperties of Quantum Dots. Real Space Ab Initio Calculations of Excitation Energies in Small Silicon Quantum Dots; A.D. Zdetsis et al. GeSi/Si(001 Structures with Self-Assembled Islands: Growth and Optical Properties; N.V. Vostokov et al. Quantum Dots in High Electric Fields: Field and Photofield Emission from Ge Nanoclusters on Si(100); A.A. Dadykin et al. Optical Emission Behavior of Si Quantum Dots; X. Zianni and A.G. Nassiopoulou. Strain-Driven Phenomena upon Overgrowth of Quantum Dots: Activated Spinodal Decomposition and Defect Reduction; M.V. Maximov and N.N. Ledentsov.
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Quantum dots: fundamentals, applications, and frontiers
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Taschenbuch. Condizione: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -The morphology that results during the growth of a material on the substrate of a different material is central to the fabrication of all quantum heterostructures. This morphology is determined by several factors, including the manner in which strain is accommodated if the materials have different lattice constants. One of the most topical manifestations of lattice mis t is the formation of coherent thr- dimensional(3D)islandsduringtheStranski Krastanovgrowthofahighly-strained system. The prototypical cases are InAs on GaAs(001) and Ge on Si(001), though other materials combinations also exhibit this phenomenon. When the 3D islands are embedded within epitaxiallayers of a material that has a wider band gap,the carriers within the islands are con ned by the potential barriers that surround each island, forming an array of quantum dots (QDs). Such structures have been produced for both basic physics studies and device fab- cation, including QD lasers and light-emitting diodes (LEDs) operating at the c- mercially important wavelengths of 1.3 µ m and 1.55 µ m. On a more speculative level, QD ensembles have been suggested as a possible pathway for the solid-state implementation of a quantum computer. Although some of the principles of qu- tum computing have been veri ed by other means, the practical utilization of this new computingparadigmmay warrant some sort of solid state architecture. QDs are seen as possible components of such a computer, as evidenced by a number of papersappearingintheliteratureproposingQD-basedarchitecturesandworkshops that are being organized to explore these possibilities. 416 pp. Englisch. Codice articolo 9781402033148
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Quantum Dots: Fundamentals, Applications, and Frontiers | Proceedings of the NATO ARW on Quantum Dots: Fundamentals, Applications and Frontiers, Crete, Greece 20 - 24 July 2003
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Taschenbuch. Condizione: Neu. Quantum Dots: Fundamentals, Applications, and Frontiers | Proceedings of the NATO ARW on Quantum Dots: Fundamentals, Applications and Frontiers, Crete, Greece 20 - 24 July 2003 | Bruce A. Joyce (u. a.) | Taschenbuch | xvi | Englisch | 2005 | Springer Netherland | EAN 9781402033148 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu. Codice articolo 102324556
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Quantum Dots: Fundamentals, Applications, and Frontiers
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Springer Netherlands, Springer Netherlands Jun 2005, 2005
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ISBN 13: 9781402033148
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Taschenbuch. Condizione: Neu. Neuware -The morphology that results during the growth of a material on the substrate of a different material is central to the fabrication of all quantum heterostructures. This morphology is determined by several factors, including the manner in which strain is accommodated if the materials have different lattice constants. One of the most topical manifestations of lattice mis t is the formation of coherent thr- dimensional(3D)islandsduringtheStranskiæKrastanovgrowthofahighl y-strained system. The prototypical cases are InAs on GaAs(001) and Ge on Si(001), though other materials combinations also exhibit this phenomenon. When the 3D islands are embedded within epitaxiallayers of a material that has a wider band gap,the carriers within the islands are con ned by the potential barriers that surround each island, forming an array of quantum dots (QDs). Such structures have been produced for both basic physics studies and device fab- cation, including QD lasers and light-emitting diodes (LEDs) operating at the c- mercially important wavelengths of 1.3 µ m and 1.55 µ m. On a more speculative level, QD ensembles have been suggested as a possible pathway for the solid-state implementation of a quantum computer. Although some of the principles of qu- tum computing have been veri ed by other means, the practical utilization of this new computingparadigmmay warrant some sort of solid state architecture. QDs are seen as possible components of such a computer, as evidenced by a number of papersappearingintheliteratureproposingQD-basedarchitecturesandworkshops that are being organized to explore these possibilities.Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg 416 pp. Englisch. Codice articolo 9781402033148
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Quantum Dots: Fundamentals, Applications, and Frontiers : Proceedings of the NATO ARW on Quantum Dots: Fundamentals, Applications and Frontiers, Crete, Greece 20 - 24 July 2003
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ISBN 10: 1402033141
ISBN 13: 9781402033148
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Taschenbuch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - The morphology that results during the growth of a material on the substrate of a different material is central to the fabrication of all quantum heterostructures. This morphology is determined by several factors, including the manner in which strain is accommodated if the materials have different lattice constants. One of the most topical manifestations of lattice mis t is the formation of coherent thr- dimensional(3D)islandsduringtheStranski Krastanovgrowthofahighly-strained system. The prototypical cases are InAs on GaAs(001) and Ge on Si(001), though other materials combinations also exhibit this phenomenon. When the 3D islands are embedded within epitaxiallayers of a material that has a wider band gap,the carriers within the islands are con ned by the potential barriers that surround each island, forming an array of quantum dots (QDs). Such structures have been produced for both basic physics studies and device fab- cation, including QD lasers and light-emitting diodes (LEDs) operating at the c- mercially important wavelengths of 1.3 µ m and 1.55 µ m. On a more speculative level, QD ensembles have been suggested as a possible pathway for the solid-state implementation of a quantum computer. Although some of the principles of qu- tum computing have been veri ed by other means, the practical utilization of this new computingparadigmmay warrant some sort of solid state architecture. QDs are seen as possible components of such a computer, as evidenced by a number of papersappearingintheliteratureproposingQD-basedarchitecturesandworkshops that are being organized to explore these possibilities. Codice articolo 9781402033148
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