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Physical Models for Quantum Dots
Since the early 1990s, quantum dots have become an integral part of research in solid state physics for their fundamental properties that mimic the behavior of atoms and molecules on a larger scale. They also have a broad range of applications in engineering and medicines for their ability to tune their electronic properties to achieve specific functions. This book is a compilation of articles that span 20 years of research on comprehensive physical models developed by their authors to understand the detailed properties of these quantum objects and to tailor them for specific applications. Far from being exhaustive, this book focuses on topics of interest for solid state physicists, materials scientists, engineers, and general readers, such as quantum dots and nanocrystals for single-electron charging with applications in memory devices, quantum dots for electron-spin manipulation with applications in quantum information processing, and finally self-assembled quantum dots for applications in nanophotonics.
Physical Models for Semiconductor Quantum Dots
Since the early 1990s, quantum dots have become an integral part of research in solid state physics for their fundamental properties that mimic the behavior of atoms and molecules on a larger scale. They also have broad range of applications in engineering and medicines for their ability to tune their electronic properties to achieve specific functions. This book is a compilation of articles that span 20 years of research on comprehensive physical models developed by their authors to understand the detailed properties of these quantum objects, and to tailor them for specific applications. Far from being exhaustive, this book focuses on topics of interest for solid state physicists, material scientists and engineers, such as quantum dots and nanocrystals for single electron charging with applications in memory devices, quantum dots for electron spin manipulation with applications in quantum information processing, and finally self-assembled quantum dots for applications in nano-photonics.
Physical Models for Quantum Wires, Nanotubes, and Nanoribbons
Quantum wires are artificial structures characterized by nanoscale cross sections that contain charged particles moving along a single degree of freedom. With electronic motions constrained into standing modes along with the two other spatial directions, they have been primarily investigated for their unidimensional dynamics of quantum-confined charge carriers, which eventually led to broad applications in large-scale nanoelectronics. This book is a compilation of articles that span more than 30 years of research on developing comprehensive physical models that describe the physical properties of these unidimensional semiconductor structures. The articles address the effect of quantum confinement on lattice vibrations, carrier scattering rates, and charge transport as well as present practical examples of solutions to the Boltzmann equation by analytical techniques and by numerical simulations such as the Monte Carlo method. The book also presents topics on quantum transport and spin effects in unidimensional molecular structures such as carbon nanotubes and graphene nanoribbons in terms of non-equilibrium Green’s function approaches and density functional theory.
Physical Models for Quantum Wires, Nanotubes, and Nanoribbons
A compilation of articles that span more than 30 years of research on developing comprehensive physical models. Address the effect of quantum confinement on lattice vibrations, carriers scattering rates, and charge transport and present practical examples of solutions to the Boltzmann equation. Topics on quantum transport and spin effects in unidimensional molecular structures such as carbon nanotubes and graphene nanoribbons.
Handbook of Thin Film Deposition
Handbook of Thin Film Deposition, Fifth Edition, is a comprehensive reference focusing on thin film technologies and applications used in the semiconductor industry. When pursuing patents, there is a phase called 'reduction to practice' where the idea for a technology transitions from a concept to actual use. The section 'Thin Film Reduction to Practice' includes chapters that review the most relevant methods to fabricate thin films towards practical applications. Then, the latest applications of thin film deposition technologies are discussed. Handbook of Thin Film Deposition, 5th Edition is suitable for materials scientists and engineers in academia and working in semiconductor R&D. - Offers a practical survey of thin film technologies including design, fabrication, and reliability - Covers core processes and applications in the semiconductor industry and discusses latest advances in new thin film development - Features new chapters that review methods on front-end and back-end thin films
Physics of Quantum Rings
This book deals with a new class of materials, quantum rings. Innovative recent advances in experimental and theoretical physics of quantum rings are based on the most advanced state-of-the-art fabrication and characterization techniques as well as theoretical methods. The experimental efforts allow to obtain a new class of semiconductor quantum rings formed by capping self-organized quantum dots grown by molecular beam epitaxy. Novel optical and magnetic properties of quantum rings are associated with non-trivial topologies at the nanoscale. An adequate characterization of quantum rings is possible on the basis of modern characterization methods of nanostructures, such as Scanning Tunneling Microscopy. A high level of complexity is demonstrated to be needed for a dedicated theoretical model to adequately represent the specific features of quantum rings. The findings presented in this book contribute to develop low-cost high-performance electronic, spintronic, optoelectronic and information processing devices based on quantum rings.
Nanopores
Nanopores are nanometer scale holes formed naturally by proteins or cells, and can be used for a variety of applications, including sequencing DNA and detecting anthrax. They can be integrated into artificially constructed encapsulated cells of silicon wafers while allowing small molecules like oxygen, glucose and insulin to pass, while keeping out large system molecules. "Nanopores: Sensing and Fundamental Biological Interactions" examines the emerging research directions surrounding nanopores such as genome sequencing and early disease detection using biomarker identification. Covering the applications of nanopores in genetics, proteomics, drug discovery, early disease detection and detection of emerging environmental threats, it is a must-have book for biomedicalengineers and research scientists.
Quantum-based Electronic Devices And Systems, Selected Topics In Electronics And Systems, Vol 14
This volume includes highlights of the theories and experimental findings that underlie essential phenomena occurring in quantum-based devices and systems as well as the principles of operation of selected novel quantum-based electronic devices and systems. A number of the emerging approaches to creating new types of quantum-based electronic devices and systems are also discussed.
Handbook of Zinc Oxide and Related Materials
Through their application in energy-efficient and environmentally friendly devices, zinc oxide (ZnO) and related classes of wide gap semiconductors, including GaN and SiC, are revolutionizing numerous areas, from lighting, energy conversion, photovoltaics, and communications to biotechnology, imaging, and medicine. With an emphasis on engineering and materials science, Handbook of Zinc Oxide and Related Materials provides a comprehensive, up-to-date review of various technological aspects of ZnO. Volume One presents fundamental knowledge on ZnO-based materials and technologies. It covers the basic physics and chemistry of ZnO and related compound semiconductors and alloys. The first part of ...
Advances In Semiconductor Lasers And Applications To Optoelectronics (Ijhses Vol. 9 No. 4)
Foreword by Charles H Townes This volume includes highlights of the theories underlying the essential phenomena occurring in novel semiconductor lasers as well as the principles of operation of selected heterostructure lasers. To understand scattering processes in heterostructure lasers and related optoelectronic devices, it is essential to consider the role of dimensional confinement of charge carriers as well as acoustical and optical phonons in quantum structures. Indeed, it is important to consider the confinement of both phonons and carriers in the design and modeling of novel semiconductor lasers such as the tunnel injection laser, quantum well intersubband lasers, and quantum dot lase...
