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Future trends in microelectronics : up the nano creek / edited by Serge Luryi, Jimmy Xu, Alex Zaslavsky.

By: FTM-5 (2006 : Crete, Greece).
Contributor(s): Zaslavsky, Alexander | Luryi, Serge | Xu, Jimmy | IEEE Xplore (Online service) [distributor.].
Material type: materialTypeLabelBookPublisher: Hoboken, New Jersey : Wiley-Interscience, c2007Description: 1 PDF (xiv, 459 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780470168264.Subject(s): Nanotechnology -- Congresses | Microelectronics -- Congresses | Absorption | Adaptation model | Aerospace electronics | Algae | Approximation methods | Arrays | Atomic layer deposition | Ballistic transport | Biographies | Bioinformatics | Books | Buffer layers | CMOS integrated circuits | CMOS technology | Capacitance | Carbon nanotubes | Charge carrier processes | Chemicals | Clocks | Computational modeling | Computer architecture | Computers | Correlation | Corrugated surfaces | Couplings | Crystals | Current measurement | DNA | DVD | Delay | Detectors | Dielectrics | Diseases | Doping | Drugs | Electric fields | Electric potential | Electrodes | Electron optics | Electrostatics | Epitaxial growth | Equations | Error correction | Evolution (biology) | Explosives | FETs | Fabrication | Face | Fault tolerance | Fault tolerant systems | Films | Finite element methods | Fluctuations | Gallium arsenide | Gallium nitride | Genomics | Gold | Humans | Hydrodynamics | Imaging | Indexes | Indium | Information processing | Information technology | Insulators | Integrated circuit interconnections | Integrated circuits | Integrated optics | Interference | Junctions | Laser modes | Laser theory | Laser transitions | Laser tuning | Lattices | Leakage current | Lenses | Light emitting diodes | Lithography | Logic gates | MOSFET circuits | MOSFETs | Magnetic confinement | Magnetic fields | Magnetic semiconductors | Magnetic tunneling | Magnetization | Magnetoelectronics | Materials | Mathematical model | Maxwell equations | Medical diagnostic imaging | Metals | Microcavities | Microelectrodes | Microelectronics | Microorganisms | Modulation | Molecular imaging | Nanophotonics | Nanoscale devices | Nanostructured materials | Nanostructures | Nanotechnology | Neurons | Next generation networking | Noise | Noise measurement | Nonlinear dynamical systems | Observers | Optical imaging | Optical interconnections | Optical polarization | Optical recording | Optical refraction | Optical variables control | Optical waveguides | Optics | Oscillators | Periodic structures | Photonic band gap | Photonic crystals | Photonics | Photovoltaic systems | Physics | Positron emission tomography | Process control | Production | Quantum cascade lasers | Quantum computing | Quantum dot lasers | Quantum dots | Quantum mechanics | RNA | Random access memory | Refractive index | Resistance | Resists | Resonant frequency | Scattering | Semiconductor lasers | Silicon | Slabs | Solar power generation | Solids | Spectroscopy | Spin polarized transport | Spontaneous emission | Strain | Substrates | Surface treatment | Switches | Switching circuits | Synchronization | Temperature distribution | Temperature measurement | Three dimensional displays | Threshold voltage | Time frequency analysis | Transistors | Tunneling | Uncertainty | Vaccines | Very large scale integration | Voltage measurement | Water conservation | Waveguide lasers | Wires | WritingGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.381 Online resources: Abstract with links to resource Also available in print.
Contents:
Preface (S. Luryi, J. M. Xu, and A. Zaslavskyix ) -- 1. PHYSICS: THE FOUNDATIONS1 -- Is Fault-Tolerant Quantum Computation Really Possible (M. I. Dyakonov )? -- Quantum Computation 'Future of Microelectronics' (P. Hawrylak) -- Semiconductor Spintronics: Progress and Challenges (E. I. Rashba) -- Towards Semiconductor Spin Logic (I. Zutic and J. Fabian) -- Molecular Meso- and Nanodevices: Are the Molecules Conducting (N. B. Zhitenev)? -- The Problem of a Perfect Lens Made From a Slab: With Negative Refraction (A. L. Efros) -- Is There a Linewidth Theory for Semiconductor Lasers (B. Spivak and S. Luryi)? -- Fermi Liquid Behavior of GaAs Quantum Wires (E. Levy, A. Tsukernik, M. Karpovski, A. Palevski, B. Dwir, E. Pelucchi, A. Rudra, E. Kapon, and Y. Oreg) -- 2. BIOLOGY: WE ARE ALL ZOA -- Towards Molecular Medicine (H. van Houten and H. Hofstraat) -- Interfacing the Brain - With Microelectronics (A. V. Nurmikko, W. R. Patterson, Y.-K. Song, C. W. Bull, and J. P. Donoghue)? -- Synthetic Biology: Synthesis and Modification of a Chemical Called Poliovirus (S. Mueller, J. R. Coleman, J. Cello, A. Paul, E. Wimmer, D. Papamichail, and S. Skiena) -- Guided Evolution in Interacting Microchemostat Arrays for Optimization of Photobacterial Hydrogen Production (R. H. Austin, P. Galajda, and J. Keymer) -- Improvements in Light Emitters by Controlling Spontaneous Emission: From LEDs to Biochips (C. Weisbuch, A. David, M. Rattier, L. Martinelli, H. Choumane, N. Ha, C. Nelep, A. Chardon, G.-O. Reymond, C. Goutel, G. Cerovic, and H. Benisty) -- 3. ELECTRONICS: CHALLENGES AND SOLUTIONS -- Nanomanufacturing Technology: Exa-Units at Nano-Dollars (M. R. Pinto) -- 32 nm: Lithography at a Crossroad (J. P. H. Benschop) -- Physical Limits of Silicon CMOS: Real Showstopper or Wrong Problem (M. Brillou t)? -- Will the Insulated Gate Transistor Concept Survive Next Decade (O. Engstr m) -- Scaling Limits of Silicon CMOS and Non-Silicon Opportunities (Y. Nishi) -- Carbon-Nanotube Solutions for the Post-CMOS-Scaling World (P. M. Solomon).
Alternatives to Silicon: Will Our Best Be Anywhere Good Enough in Time (M. J. Kelly)? -- MRAM Downscaling Challenges (F. Arnaud d'Avitaya, V. Safarov, and A. Filipe) -- Atomically Controlled Processing for Future Si-Based Devices (J. Murota, M. Sakuraba, and B. Tillack) -- Ultimate VLSI Clocking Using Passive Serial Distribution (M. Banu and V. Prodanov) -- Origin of 1/f Noise in MOS Devices: Concluding a Noisy Debate (K. Akarvardar, S. Cristoloveanu, and P. Gentil) -- Quasiballistic Transport in Nano-MOSFETs (E. Sangiorgi, S. Eminente, C. Fiegna, P. Palestri, D. Esseni, and L. Selmi) -- Absolute Negative Resistance in Ballistic Variable Threshold Field Effect Transistor (M. I. Dyakonov and M. S. Shur) -- Formation of Three-Dimensional SiGe Quantum Dot Crystals (C. Dais, P. Kser, H. Solak, Y. Ekinci, E. Deckhardt, E. Mller, D. Grtzmacher, J. Stangl, T. Suzuki, T. Fromherz, and G. Bauer) -- Robust Metallic Interconnects for Flexible Electronics and Bioelectronics (D. P. Wang, F. Y. Biga, A. Zaslavsky, and G. P. Crawford) -- 4. PHOTONICS: LIGHT TO THE RESCUE -- Silicon Photonics - Optics to the Chip at Last (D. A. B. Miller)? -- The Future of Single- to Multi-Band Detector Technologies (M. N. Abedin,I. Bhat, S. D. Gunapala, S. V. Bandara, T. F. Refaat, S. P. Sandford, and U. N. Singh) -- Terahertz Quantum Cascade Lasers and Real-Time T-Ray Imaging (Q. Hu, B. S. Williams, S. Kumar, A. W. M. Lee, Q. Qin J. L. Reno, H. C. Liu and Z. R. Wasilewski) -- Terahertz Spectroscopy and Imaging (E. H. Linfield, J. E. Cunningham, and A. G. Davies) -- Wavelength Tuning of Interband Cascade Lasers Based on the Stark Effect (S. Suchalkin, M. Kisin, S. Luryi, G. Belenky, F. Towner, J. D. Bruno, C. Monroy, and R. L. Tober) -- Intersubband Quantum-Box Lasers: An Update (D. Botez, M. D'Souza, G. Tsvid, A. Khandekhar, D. Xu, J. C. Shin, T. Kuech, A. Lyakh and P. Zory) -- A New Class of Semiconductors Using Quantum Confinement of Silicon in a Dielectric Matrix (M. A. Green).
Merging Nanoepitaxy and Nanophotonics (N. N. Ledentsov, V. A. Shchukin, and D. Bimberg) -- Quantum Control of the Dynamics of a Semiconductor Quantum Well (E. Paspalakis, M. Tsaousidou, and A. F. Terzis) -- List Of Contributors -- Index.
Summary: In this book leading profesionals in the semiconductor microelectronics field discuss the future evolution of their profession. The following are some of the questions discussed: . Does CMOS technology have a real problem?. Do transistors have to be smaller or just better and made of better materials?. What is to come after semiconductors?. Superconductors or molecular conductors?. Is bottom-up self-assembling the answer to the limitation of top-down lithography?. Is it time for Optics to become a force in computer evolution?. Quantum Computing, Spintronics?. Where is the printable plastic electronics proposed 10 years ago?. Are carbon nanotube transistors the CMOS of the future?.
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"This book is a brainchild of the fifth workshop in the Future Trends in Microelectronics series (FTM-5) ... on Crete, Greece, in June of 2006"--Pref.

Includes bibliographical references and index.

Preface (S. Luryi, J. M. Xu, and A. Zaslavskyix ) -- 1. PHYSICS: THE FOUNDATIONS1 -- Is Fault-Tolerant Quantum Computation Really Possible (M. I. Dyakonov )? -- Quantum Computation 'Future of Microelectronics' (P. Hawrylak) -- Semiconductor Spintronics: Progress and Challenges (E. I. Rashba) -- Towards Semiconductor Spin Logic (I. Zutic and J. Fabian) -- Molecular Meso- and Nanodevices: Are the Molecules Conducting (N. B. Zhitenev)? -- The Problem of a Perfect Lens Made From a Slab: With Negative Refraction (A. L. Efros) -- Is There a Linewidth Theory for Semiconductor Lasers (B. Spivak and S. Luryi)? -- Fermi Liquid Behavior of GaAs Quantum Wires (E. Levy, A. Tsukernik, M. Karpovski, A. Palevski, B. Dwir, E. Pelucchi, A. Rudra, E. Kapon, and Y. Oreg) -- 2. BIOLOGY: WE ARE ALL ZOA -- Towards Molecular Medicine (H. van Houten and H. Hofstraat) -- Interfacing the Brain - With Microelectronics (A. V. Nurmikko, W. R. Patterson, Y.-K. Song, C. W. Bull, and J. P. Donoghue)? -- Synthetic Biology: Synthesis and Modification of a Chemical Called Poliovirus (S. Mueller, J. R. Coleman, J. Cello, A. Paul, E. Wimmer, D. Papamichail, and S. Skiena) -- Guided Evolution in Interacting Microchemostat Arrays for Optimization of Photobacterial Hydrogen Production (R. H. Austin, P. Galajda, and J. Keymer) -- Improvements in Light Emitters by Controlling Spontaneous Emission: From LEDs to Biochips (C. Weisbuch, A. David, M. Rattier, L. Martinelli, H. Choumane, N. Ha, C. Nelep, A. Chardon, G.-O. Reymond, C. Goutel, G. Cerovic, and H. Benisty) -- 3. ELECTRONICS: CHALLENGES AND SOLUTIONS -- Nanomanufacturing Technology: Exa-Units at Nano-Dollars (M. R. Pinto) -- 32 nm: Lithography at a Crossroad (J. P. H. Benschop) -- Physical Limits of Silicon CMOS: Real Showstopper or Wrong Problem (M. Brillou t)? -- Will the Insulated Gate Transistor Concept Survive Next Decade (O. Engstr m) -- Scaling Limits of Silicon CMOS and Non-Silicon Opportunities (Y. Nishi) -- Carbon-Nanotube Solutions for the Post-CMOS-Scaling World (P. M. Solomon).

Alternatives to Silicon: Will Our Best Be Anywhere Good Enough in Time (M. J. Kelly)? -- MRAM Downscaling Challenges (F. Arnaud d'Avitaya, V. Safarov, and A. Filipe) -- Atomically Controlled Processing for Future Si-Based Devices (J. Murota, M. Sakuraba, and B. Tillack) -- Ultimate VLSI Clocking Using Passive Serial Distribution (M. Banu and V. Prodanov) -- Origin of 1/f Noise in MOS Devices: Concluding a Noisy Debate (K. Akarvardar, S. Cristoloveanu, and P. Gentil) -- Quasiballistic Transport in Nano-MOSFETs (E. Sangiorgi, S. Eminente, C. Fiegna, P. Palestri, D. Esseni, and L. Selmi) -- Absolute Negative Resistance in Ballistic Variable Threshold Field Effect Transistor (M. I. Dyakonov and M. S. Shur) -- Formation of Three-Dimensional SiGe Quantum Dot Crystals (C. Dais, P. Kser, H. Solak, Y. Ekinci, E. Deckhardt, E. Mller, D. Grtzmacher, J. Stangl, T. Suzuki, T. Fromherz, and G. Bauer) -- Robust Metallic Interconnects for Flexible Electronics and Bioelectronics (D. P. Wang, F. Y. Biga, A. Zaslavsky, and G. P. Crawford) -- 4. PHOTONICS: LIGHT TO THE RESCUE -- Silicon Photonics - Optics to the Chip at Last (D. A. B. Miller)? -- The Future of Single- to Multi-Band Detector Technologies (M. N. Abedin,I. Bhat, S. D. Gunapala, S. V. Bandara, T. F. Refaat, S. P. Sandford, and U. N. Singh) -- Terahertz Quantum Cascade Lasers and Real-Time T-Ray Imaging (Q. Hu, B. S. Williams, S. Kumar, A. W. M. Lee, Q. Qin J. L. Reno, H. C. Liu and Z. R. Wasilewski) -- Terahertz Spectroscopy and Imaging (E. H. Linfield, J. E. Cunningham, and A. G. Davies) -- Wavelength Tuning of Interband Cascade Lasers Based on the Stark Effect (S. Suchalkin, M. Kisin, S. Luryi, G. Belenky, F. Towner, J. D. Bruno, C. Monroy, and R. L. Tober) -- Intersubband Quantum-Box Lasers: An Update (D. Botez, M. D'Souza, G. Tsvid, A. Khandekhar, D. Xu, J. C. Shin, T. Kuech, A. Lyakh and P. Zory) -- A New Class of Semiconductors Using Quantum Confinement of Silicon in a Dielectric Matrix (M. A. Green).

Merging Nanoepitaxy and Nanophotonics (N. N. Ledentsov, V. A. Shchukin, and D. Bimberg) -- Quantum Control of the Dynamics of a Semiconductor Quantum Well (E. Paspalakis, M. Tsaousidou, and A. F. Terzis) -- List Of Contributors -- Index.

Restricted to subscribers or individual electronic text purchasers.

In this book leading profesionals in the semiconductor microelectronics field discuss the future evolution of their profession. The following are some of the questions discussed: . Does CMOS technology have a real problem?. Do transistors have to be smaller or just better and made of better materials?. What is to come after semiconductors?. Superconductors or molecular conductors?. Is bottom-up self-assembling the answer to the limitation of top-down lithography?. Is it time for Optics to become a force in computer evolution?. Quantum Computing, Spintronics?. Where is the printable plastic electronics proposed 10 years ago?. Are carbon nanotube transistors the CMOS of the future?.

Also available in print.

Mode of access: World Wide Web.

Description based on PDF viewed 12/19/2015.

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