000 12184nam a2202557 i 4500
001 5201522
003 IEEE
005 20230927112341.0
006 m o d
007 cr |n|||||||||
008 071115t20152007njua ob 101 0 eng d
020 _a9780470168264
_qelectronic
020 _z9781118442166
_qpaper
020 _z0470168269
_qelectronic
024 7 _a10.1002/9780470168264
_2doi
035 _a(CaBNVSL)mat05201522
035 _a(IDAMS)0b0000648104a9d2
040 _aCaBNVSL
_beng
_erda
_cCaBNVSL
_dCaBNVSL
082 0 4 _a621.381
111 2 _aFTM-5
_d(2006 :
_cCrete, Greece)
245 1 0 _aFuture trends in microelectronics :
_bup the nano creek /
_cedited by Serge Luryi, Jimmy Xu, Alex Zaslavsky.
264 1 _aHoboken, New Jersey :
_bWiley-Interscience,
_cc2007.
300 _a1 PDF (xiv, 459 pages) :
_billustrations.
336 _atext
_2rdacontent
337 _aelectronic
_2isbdmedia
338 _aonline resource
_2rdacarrier
500 _a"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.
504 _aIncludes bibliographical references and index.
505 0 _aPreface (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).
505 8 _aAlternatives 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).
505 8 _aMerging 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.
506 1 _aRestricted to subscribers or individual electronic text purchasers.
520 _aIn 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?.
530 _aAlso available in print.
538 _aMode of access: World Wide Web.
588 _aDescription based on PDF viewed 12/19/2015.
650 0 _aNanotechnology
_vCongresses.
650 0 _aMicroelectronics
_vCongresses.
655 0 _aElectronic books.
695 _aResists
695 _aResonant frequency
695 _aScattering
695 _aSemiconductor lasers
695 _aSilicon
695 _aSlabs
695 _aSolar power generation
695 _aSolids
695 _aSpectroscopy
695 _aSpin polarized transport
695 _aSpontaneous emission
695 _aStrain
695 _aSubstrates
695 _aSurface treatment
695 _aSwitches
695 _aSwitching circuits
695 _aSynchronization
695 _aTemperature distribution
695 _aTemperature measurement
695 _aThree dimensional displays
695 _aThreshold voltage
695 _aTime frequency analysis
695 _aTransistors
695 _aTunneling
695 _aUncertainty
695 _aVaccines
695 _aVery large scale integration
695 _aVoltage measurement
695 _aWater conservation
695 _aWaveguide lasers
695 _aWires
695 _aWriting
695 _aAbsorption
695 _aAdaptation model
695 _aAerospace electronics
695 _aAlgae
695 _aApproximation methods
695 _aArrays
695 _aAtomic layer deposition
695 _aBallistic transport
695 _aBiographies
695 _aBioinformatics
695 _aBooks
695 _aBuffer layers
695 _aCMOS integrated circuits
695 _aCMOS technology
695 _aCapacitance
695 _aCarbon nanotubes
695 _aCharge carrier processes
695 _aChemicals
695 _aClocks
695 _aComputational modeling
695 _aComputer architecture
695 _aComputers
695 _aCorrelation
695 _aCorrugated surfaces
695 _aCouplings
695 _aCrystals
695 _aCurrent measurement
695 _aDNA
695 _aDVD
695 _aDelay
695 _aDetectors
695 _aDielectrics
695 _aDiseases
695 _aDoping
695 _aDrugs
695 _aElectric fields
695 _aElectric potential
695 _aElectrodes
695 _aElectron optics
695 _aElectrostatics
695 _aEpitaxial growth
695 _aEquations
695 _aError correction
695 _aEvolution (biology)
695 _aExplosives
695 _aFETs
695 _aFabrication
695 _aFace
695 _aFault tolerance
695 _aFault tolerant systems
695 _aFilms
695 _aFinite element methods
695 _aFluctuations
695 _aGallium arsenide
695 _aGallium nitride
695 _aGenomics
695 _aGold
695 _aHumans
695 _aHydrodynamics
695 _aImaging
695 _aIndexes
695 _aIndium
695 _aInformation processing
695 _aInformation technology
695 _aInsulators
695 _aIntegrated circuit interconnections
695 _aIntegrated circuits
695 _aIntegrated optics
695 _aInterference
695 _aJunctions
695 _aLaser modes
695 _aLaser theory
695 _aLaser transitions
695 _aLaser tuning
695 _aLattices
695 _aLeakage current
695 _aLenses
695 _aLight emitting diodes
695 _aLithography
695 _aLogic gates
695 _aMOSFET circuits
695 _aMOSFETs
695 _aMagnetic confinement
695 _aMagnetic fields
695 _aMagnetic semiconductors
695 _aMagnetic tunneling
695 _aMagnetization
695 _aMagnetoelectronics
695 _aMaterials
695 _aMathematical model
695 _aMaxwell equations
695 _aMedical diagnostic imaging
695 _aMetals
695 _aMicrocavities
695 _aMicroelectrodes
695 _aMicroelectronics
695 _aMicroorganisms
695 _aModulation
695 _aMolecular imaging
695 _aNanophotonics
695 _aNanoscale devices
695 _aNanostructured materials
695 _aNanostructures
695 _aNanotechnology
695 _aNeurons
695 _aNext generation networking
695 _aNoise
695 _aNoise measurement
695 _aNonlinear dynamical systems
695 _aObservers
695 _aOptical imaging
695 _aOptical interconnections
695 _aOptical polarization
695 _aOptical recording
695 _aOptical refraction
695 _aOptical variables control
695 _aOptical waveguides
695 _aOptics
695 _aOscillators
695 _aPeriodic structures
695 _aPhotonic band gap
695 _aPhotonic crystals
695 _aPhotonics
695 _aPhotovoltaic systems
695 _aPhysics
695 _aPositron emission tomography
695 _aProcess control
695 _aProduction
695 _aQuantum cascade lasers
695 _aQuantum computing
695 _aQuantum dot lasers
695 _aQuantum dots
695 _aQuantum mechanics
695 _aRNA
695 _aRandom access memory
695 _aRefractive index
695 _aResistance
700 1 _aZaslavsky, Alexander.
700 1 _aLuryi, Serge.
700 1 _aXu, Jimmy.
710 2 _aIEEE Xplore (Online service),
_edistributor.
776 0 8 _iPrint version:
_z9781118442166
856 4 2 _3Abstract with links to resource
_uhttps://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=5201522
999 _c39942
_d39942