This book, now in its second edition, introduces readers to quantum rings as a special class of modern high-tech material structures at the nanoscale. It deals, in particular, with their formation by means of molecular beam epitaxy and droplet epitaxy of semiconductors, and their topology-driven electronic, optical and magnetic properties. A highly complex theoretical model is developed to adequately represent the specific features of quantum rings. The results presented here are intended to facilitate the development of low-cost high-performance electronic, spintronic, optoelectronic and…mehr
This book, now in its second edition, introduces readers to quantum rings as a special class of modern high-tech material structures at the nanoscale. It deals, in particular, with their formation by means of molecular beam epitaxy and droplet epitaxy of semiconductors, and their topology-driven electronic, optical and magnetic properties. A highly complex theoretical model is developed to adequately represent the specific features of quantum rings. The results presented here are intended to facilitate the development of low-cost high-performance electronic, spintronic, optoelectronic and information processing devices based on quantum rings.
This second edition includes both new and significantly revised chapters. It provides extensive information on recent advances in the physics of quantum rings related to the spin-orbit interaction and spin dynamics (spin interference in Rashba rings, tunable exciton topology on type II InAs/GaAsSb quantum nanostructures), the electron-phonon interaction in ring-like structures, quantum interference manifestations in novel materials (graphene nanoribbons, MoS2), and the effects of electrical field and THz radiation on the optical properties of quantum rings. The new edition also shares insights into the properties of various novel architectures, including coupled quantum ring-quantum dot chains and concentric quantum rings, topologic states of light in self-assembled ring-like cavities, and optical and plasmon m.odes in Möbius-shaped resonators.
Vladimir M. Fomin is a Research Professor at the Institute for Integrative Nanosciences (IIN), Leibniz Institute for Solid State and Materials Research (IFW) Dresden and a Professor of Theoretical Physics at the State University of Moldova. He received his Ph.D. in Theoretical Physics from the State University of Moldova in 1978. His research pertained to non-linear optical properties and transport in semiconductors and multi-layer structures. He was awarded the State Prize of Moldova in 1987, and received his degree of Doctor of physical and mathematical sciences ("habilitation", Academy of Sciences of Moldova) in 1990. Since 1995 he has been a Professor of Theoretical Physics at the State University of Moldova. In 1999, he received a Diploma of a Scientific Discovery of the Phenomenon of the Propagation of Spatially-Extended Interface Phonon Polaritons in Composite Superlattices from the Academy of Natural Sciences of Russia. He was a Research Fellow of the Alexander von HumboldtFoundation (Martin-Luther-University of Halle, 1993-1994), University of Antwerp, 1995-2008 and Eindhoven University of Technology, 1998-1999 and 2003-2007, Catholic University of Leuven, 2008, University of Duisburg-Essen, 2008-2009, and the IIN IFW Dresden since 2009. In 2007 he became an Honorary Member of the Academy of Sciences of Moldova. His scientific interests currently concern topology- and geometry-driven phenomena in nanophysics, especially the physics of quantum rings. He has published four books and over 200 scientific articles, and holds 10 patents.
Inhaltsangabe
Quantum Ring: A Unique Playground for the Quantum-mechanical Paradigm.- Optical Berry Phase in Micro/nano-rings.- From Dot to Ring: Tunable Exciton Topology on Type II InAs/GaAsSb Quantum Nanostructures.- Self-organized Quantum Rings: Physical Characterization and Theoretical Modeling.- Scanning-probe Electronic Imaging of Lithographically Patterned Quantum Rings.- Functionalization of Droplet Etching for Quantum Rings.- Fabrication of Ordered Quantum Rings by Molecular Beam Epitaxy.- Self-assembled Semiconductor Quantum Rings Complexes by Droplet Epitaxy: Growth and Physical Properties.- Optical Aharonov-Bohm Oscillations of an Exciton and a Biexciton in a Quantum Ring.- Aharonov-Bohm Effect for Neutral Excitons in Quantum Rings.- Electronic, Magnetic and Optical Properties of Quantum Rings of Novel Materials.- Spin Interference Effects in Rashba Rings.- Quantum Rings in Electromagnetic Fields.- Intense THz Radiation Effect on Electronic and Intraband Optical Properties of Semiconductor Quantum Rings.- Electron-phonon Interaction in Ring-like Nanostructures.- Differential Geometry Applied to Rings and Möbius Nanostructures.- Band Mixing Effects in InAs/GaAs Quantum Rings and in the Ring-like Behaving MoS2 Quantum Dots.- Circular n-p Nanojunctions in Graphene Nanoribbons.
Quantum Ring: A Unique Playground for the Quantum-mechanical Paradigm.- Optical Berry Phase in Micro/nano-rings.- From Dot to Ring: Tunable Exciton Topology on Type II InAs/GaAsSb Quantum Nanostructures.- Self-organized Quantum Rings: Physical Characterization and Theoretical Modeling.- Scanning-probe Electronic Imaging of Lithographically Patterned Quantum Rings.- Functionalization of Droplet Etching for Quantum Rings.- Fabrication of Ordered Quantum Rings by Molecular Beam Epitaxy.- Self-assembled Semiconductor Quantum Rings Complexes by Droplet Epitaxy: Growth and Physical Properties.- Optical Aharonov-Bohm Oscillations of an Exciton and a Biexciton in a Quantum Ring.- Aharonov-Bohm Effect for Neutral Excitons in Quantum Rings.- Electronic, Magnetic and Optical Properties of Quantum Rings of Novel Materials.- Spin Interference Effects in Rashba Rings.- Quantum Rings in Electromagnetic Fields.- Intense THz Radiation Effect on Electronic and Intraband Optical Properties of Semiconductor Quantum Rings.- Electron-phonon Interaction in Ring-like Nanostructures.- Differential Geometry Applied to Rings and Möbius Nanostructures.- Band Mixing Effects in InAs/GaAs Quantum Rings and in the Ring-like Behaving MoS2 Quantum Dots.- Circular n-p Nanojunctions in Graphene Nanoribbons.
Rezensionen
"Offers extensive material for scientists and upper-level students who wish to familiarize themselves with the subject in great breadth and depth, showing that, beyond points, lines and surfaces, there is still "a lot of room at the bottom"." (Translated from German, Prof. Dr. Axel Lorke, pro-physik.de, September 2019)
Es gelten unsere Allgemeinen Geschäftsbedingungen: www.buecher.de/agb
Impressum
www.buecher.de ist ein Internetauftritt der buecher.de internetstores GmbH
Geschäftsführung: Monica Sawhney | Roland Kölbl | Günter Hilger
Sitz der Gesellschaft: Batheyer Straße 115 - 117, 58099 Hagen
Postanschrift: Bürgermeister-Wegele-Str. 12, 86167 Augsburg
Amtsgericht Hagen HRB 13257
Steuernummer: 321/5800/1497
USt-IdNr: DE450055826