Description

Book Synopsis
A lively and thought-provoking look at the future of microelectronics

Nanotechnology has been named by the U.S. government as one of the most important areas of impending technology. It is a common view among leading professionals in microelectronics that current explosive developments in the field will likely lead to profound paradigm shifts in the near future. Identifying plausible scenarios for the forthcoming evolution of microelectronics presents a tremendous opportunity for constructive action today, especially since our economy and, indeed, our civilization seem destined to be irrevocably shaped by this technology.

Based on ideas and discussions arising from the third meeting in the Future Trends in Microelectronics (FTM) workshop series, held in the summer of 2001, this timely and intriguing contributed volume provides a unique forum for today''s leading experts in the semiconductor microelectronics field to discuss the future evolution of their profes

Trade Review
"…well-organized and readable and includes sections by knowledgeable specialists in their fields. It will spur you to think and will help you realize how and why the technologies you are using may differ greatly in five or 10 years.” (EDN.com)

"...lively and thought-provoking book..." (Choice, Vol. 40, No. 6 February 2003)



Table of Contents
Preface (S. Luryi, et al.).

PART I: THE FUTURE WITH SILICON.

Microelectronics Technology: Challenges in the 21st Century (S. Sze).

Trends in Microlithography (J. Benschop).

Strategies at the End of CMOS Scaling (P. Solomon).

Driving Technology to Re-Engineer Telecommunications (T. Smith, et al.).

Rare Earth Metal Oxides as High-k Gate Insulators for Future MOSFETs (H. Iwai, et al.).

Ultra-Thin Single- and Double-Gate MOSFETs for Future ULSI Applications: Measurements, Simulations, and Open Issues (D. Esseni, et al.).

Future Silicon-on-Insulator MOSFETs: Chopped or Genetically Modified? (F. Allibert, et al.).

Current Transport Models for Engineering Applications (T. Grasser & S. Selberherr).

Advanced Physically Based Device Modeling for Gate Current and Hot-Carrier Phenomena in Scaled MOSFETs (P. Palestri, et al.).

PART II: THE FUTURE BEYOND SILICON: SEMICONDUCTORS, SUPERCONDUCTORS, PHASE TRANSITIONS, DNA.

FLUX-1: Designing the First Generation of 20-GHz Superconductor RSFQ Microprocessors in 1.75-mum Technology (M. Dorojevets).

Silicon...Beyond Silicon: Beginning of the End or End of the Beginning? (I. Lagnado & P. de la Houssaye).

Taming Tunneling (M. Kelly).

Switching Device Based on a First-Order Metal-Insulator Transition Induced by an External Electric Field (F. Chudnovskiy & S. Luryi).

DNA Conduction Mechanisms and Engineering (R. Zia, et al.).

New Cold Cathode Paradigms for Vacuum Microelectronics Applications (M. Cahay, et al.).

PART III: THE FUTURE ALONGSIDE SILICON: OPTICAL.

The Evolution of Optical Data Storage (H. van Houten).

Long Wavelength Quantum Dot Lasers: From Promising to Unbeatable (N. Ledentsov).

Temperature-Insensitive Semiconductor Lasers (L. Asryan & S. Luryi).

Trends in Semiconductor Laser Design: Balance Between Leakage, Gain and Loss in InGaAsP/InP Multiquantum Well Structures (G. Belenky, et al.).

Terahertz Emitters Based on Intersubband Transitions (Q. Hu, et al.).

The Future of Photovoltaics (M. Green).

Infrared Detectors Based on InAs/GaSb Superlattices (M. Razeghi, et al.).

Solid State Lighting (A. Zukauskas, et al.).

Reduction of Reflection Losses in Nonlinear Optical Crystals by Motheye Patterning (A. Zaslavsky, et al.).

Growth of III-Nitrides on Si(111) and GaN Templates: Challenges and Prospects (M. Sanchez-Garcia, et al.).

PART IV: THE FUTURE WAY BEYOND SILICON: OTHER PARADIGMS.

Quantum Computing: A View from the Enemy Camp (M. Dyakonov).

Entanglement and Quantum Gate Operations with Spin-Qubits in Quantum Dots (J. Schliemann & D. Loss).

Quantum Computation with Quasiparticles of the Fractional Quantum Hall Effect (D. Averin & V. Goldman).

Photonics with Chips (A. Nurmikko).

Metacrystals: Three Dimensional Systems of Interacting Quantum Dots (D. Johnstone).

InGaAs/GaAs Quantum Well Microcavities with Spatially Controlled Carrier Injection (S. Mestanza, et al.).

List of Contributors.

Index.

Future Trends in Microelectronics

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    A Hardback by Serge Luryi, Jimmy Xu, Alex Zaslavsky

      Trusted by thousands of customers. See 2,385+ Customer Reviews

      View other formats and editions of Future Trends in Microelectronics by Serge Luryi

      Publisher: John Wiley & Sons Inc
      Publication Date: 13/09/2002
      ISBN13: 9780471212478, 978-0471212478
      ISBN10: 0471212474
      Also in:
      Electronics and communications engineering

      Description

      Book Synopsis
      A lively and thought-provoking look at the future of microelectronics

      Nanotechnology has been named by the U.S. government as one of the most important areas of impending technology. It is a common view among leading professionals in microelectronics that current explosive developments in the field will likely lead to profound paradigm shifts in the near future. Identifying plausible scenarios for the forthcoming evolution of microelectronics presents a tremendous opportunity for constructive action today, especially since our economy and, indeed, our civilization seem destined to be irrevocably shaped by this technology.

      Based on ideas and discussions arising from the third meeting in the Future Trends in Microelectronics (FTM) workshop series, held in the summer of 2001, this timely and intriguing contributed volume provides a unique forum for today''s leading experts in the semiconductor microelectronics field to discuss the future evolution of their profes

      Trade Review
      "…well-organized and readable and includes sections by knowledgeable specialists in their fields. It will spur you to think and will help you realize how and why the technologies you are using may differ greatly in five or 10 years.” (EDN.com)

      "...lively and thought-provoking book..." (Choice, Vol. 40, No. 6 February 2003)



      Table of Contents
      Preface (S. Luryi, et al.).

      PART I: THE FUTURE WITH SILICON.

      Microelectronics Technology: Challenges in the 21st Century (S. Sze).

      Trends in Microlithography (J. Benschop).

      Strategies at the End of CMOS Scaling (P. Solomon).

      Driving Technology to Re-Engineer Telecommunications (T. Smith, et al.).

      Rare Earth Metal Oxides as High-k Gate Insulators for Future MOSFETs (H. Iwai, et al.).

      Ultra-Thin Single- and Double-Gate MOSFETs for Future ULSI Applications: Measurements, Simulations, and Open Issues (D. Esseni, et al.).

      Future Silicon-on-Insulator MOSFETs: Chopped or Genetically Modified? (F. Allibert, et al.).

      Current Transport Models for Engineering Applications (T. Grasser & S. Selberherr).

      Advanced Physically Based Device Modeling for Gate Current and Hot-Carrier Phenomena in Scaled MOSFETs (P. Palestri, et al.).

      PART II: THE FUTURE BEYOND SILICON: SEMICONDUCTORS, SUPERCONDUCTORS, PHASE TRANSITIONS, DNA.

      FLUX-1: Designing the First Generation of 20-GHz Superconductor RSFQ Microprocessors in 1.75-mum Technology (M. Dorojevets).

      Silicon...Beyond Silicon: Beginning of the End or End of the Beginning? (I. Lagnado & P. de la Houssaye).

      Taming Tunneling (M. Kelly).

      Switching Device Based on a First-Order Metal-Insulator Transition Induced by an External Electric Field (F. Chudnovskiy & S. Luryi).

      DNA Conduction Mechanisms and Engineering (R. Zia, et al.).

      New Cold Cathode Paradigms for Vacuum Microelectronics Applications (M. Cahay, et al.).

      PART III: THE FUTURE ALONGSIDE SILICON: OPTICAL.

      The Evolution of Optical Data Storage (H. van Houten).

      Long Wavelength Quantum Dot Lasers: From Promising to Unbeatable (N. Ledentsov).

      Temperature-Insensitive Semiconductor Lasers (L. Asryan & S. Luryi).

      Trends in Semiconductor Laser Design: Balance Between Leakage, Gain and Loss in InGaAsP/InP Multiquantum Well Structures (G. Belenky, et al.).

      Terahertz Emitters Based on Intersubband Transitions (Q. Hu, et al.).

      The Future of Photovoltaics (M. Green).

      Infrared Detectors Based on InAs/GaSb Superlattices (M. Razeghi, et al.).

      Solid State Lighting (A. Zukauskas, et al.).

      Reduction of Reflection Losses in Nonlinear Optical Crystals by Motheye Patterning (A. Zaslavsky, et al.).

      Growth of III-Nitrides on Si(111) and GaN Templates: Challenges and Prospects (M. Sanchez-Garcia, et al.).

      PART IV: THE FUTURE WAY BEYOND SILICON: OTHER PARADIGMS.

      Quantum Computing: A View from the Enemy Camp (M. Dyakonov).

      Entanglement and Quantum Gate Operations with Spin-Qubits in Quantum Dots (J. Schliemann & D. Loss).

      Quantum Computation with Quasiparticles of the Fractional Quantum Hall Effect (D. Averin & V. Goldman).

      Photonics with Chips (A. Nurmikko).

      Metacrystals: Three Dimensional Systems of Interacting Quantum Dots (D. Johnstone).

      InGaAs/GaAs Quantum Well Microcavities with Spatially Controlled Carrier Injection (S. Mestanza, et al.).

      List of Contributors.

      Index.

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