Self-Assembled Quantum Dots

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In recent years, the field of self-assembled quantum dots has shown great promise for nanoscale applications in optoelectronics and quantum computing. Worldwide efforts in both theory and experimental investigations have driven the growth, characterization, and applications of quantum dots into an advanced multidisciplinary field. Written by leading experts in the field, Self-Assembled Quantum Dots provides up-to-date coverage of  carrier and spin dynamics and energy transfer and structural interaction among nanostructures. Topics also includes current device applications such as quantum dot lasers and detectors as well as future applications to quantum information processing.

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Molecular Magnets

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MOLECULAR MAGNETS covers recent scientific highlights on molecular magnetism, an active new interdisciplinary field gathering chemists, physicists, theoreticians, and experimentalists. The book provides well-documented answers to some current questions. How can chemists use soft conditions to transform molecules in light and transparent magnets? How can a molecular system behave as a single molecule magnet? How can several functions be combined in the same molecular system? How can light be used to switch molecular magnetic properties? How can molecules be used for ultimate high-density information storage or in quantum computing? What methods are physicists developing to explore these new properties of matter? What concepts and calculations can be provided for theoreticians to design new objects and to better understand the field and to enlarge its exciting developments?

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Electronic Device Architectures for the Nano-CMOS Era: From Ultimate CMOS Scaling To Beyond CMOS Devices

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This book gives a state-of-the-art overview by internationally-recognized researchers of the electronic device architectures required for the NanoCMOS era and beyond. Challenges relevant to the scaling of CMOS Nanoelectronics are addressed through the different Core CMOS and Memory Devices options in the first part of the book. The second part reviews the New device Concepts for Nanoelectronics Beyond CMOS. What are the fundamental limits of core CMOS, and can we improve the scaling by the introduction of new materials or processes? Will the new architectures using SOI, multigates, or multichannels improve the trade-off between performance and power consumption and relax the constraints of new material integration? Can quantum computing replace binary-based protocols to enhance the information processing power? These questions and others are answered in this book.

Contents: CMOS Nanoelectronics. Reaching the End of the Roadmap: Core CMOS: Physical and Technological Limitations of NanoCMOS Devices to the End of the Roadmap and Beyond (S Deleonibus, O Faynot, B de Salvo, T Ernst, C Le Royer, T Poiroux & M Vinet); Advanced CMOS Devices on Bulk and SOI: Physics, Modeling and Characterization (T Poiroux & G Le Carval); Devices Structures and Carrier Transport Properties of Advanced CMOS using High Mobility Channels (S Takagi, T Tezuka, T Irisawa, S Nakaharai, T Numata, K Usuda, N Sugiyama, M Shichijo, R Nakane & S Sugahara); High-kappa Gate Dielectrics (H Wong, K Shiraishi, K Kakushima & H Iwai); Fabrication of Source and Drain Ultra Shallow Junction (B Mizuno); New Interconnect Schemes: End of Copper, Optical Interconnects? (S Laval, L Vivien, E Cassan, D Marris-Morini & J-M Fédéli); Memory Devices: Technologies and Key Design Issues for Memory Devices (K Kim & G Jeong); FeRAM and MRAM Technologies (Y Arimoto); Advanced Charge Storage Memories: From Silicon Nanocrystals to Molecular Devices (B De Salvo & G Molas); New Concepts for Nanoelectronics. New Paths Added to CMOS Beyond the End of the Roadmap: Single Electron Devices and Applications (J Gautier, X Jehl & M Sanquer); Electronic Properties of Organic Monolayers and Molecular Devices (D Vuillaume); Carbon Nanotube Electronics (V Derycke, A Filoramo & J-P Bourgoin); Spin Electronics (K-J Lee & S H Lim); The Longer Term: Quantum Information Processing and Communication (P Jorrand).

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Quantum Coherence Correlation and Decoherence in Semiconductor Nanostructures

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Semiconductor nanostructures are attracting a great deal of interest as the most promising device with which to implement quantum information processing and quantum computing. This book surveys the present status of nanofabrication techniques, near field spectroscopy and microscopy to assist the fabricated nanostructures. It will be essential reading for academic and industrial researchers in pure and applied physics, optics, semiconductors and microelectronics.

Key Features: The first up-to-date review articles on various aspects on quantum coherence, correlation and decoherence in semiconductor nanostructures

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Advanced Semiconductor and Organic Nano-Techniques Parts I, II and III: Set

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Physical sciences and engineering, as well as biological sciences have recently made great strides in their respective fields. More importantly, the cross-fertilization of ideas, paradigms and methodologies have led to the unprecedented technological developments in areas such as information processing, full colour semiconductor displays, compact biosensors and controlled drug discovery to name a few.

Top experts in their respective fields have come together to discuss the latest developments and the future of micro-nano electronics. They investigate issues to be faced in ultimate limits such as single electron transitors; zero dimensional systems for unique properties; thresholdless lasers, electronics based on inexpensive and flexible plastic chips; cell manipulation; biosensors; DNA based computers; quantum computing; DNA sequencing chips; micro fluidics; nanomotors based on molecules; molecular electronics and recently emerging wide bandgap semiconductors for emitters, detectors and power amplifiers.

Contributions from top experts in this field
Covers a wide range of topics

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