Advanced Gate Stack, Source/drain, and Channel Engineering for Si-based CMOS 2
Advanced Gate Stack, Source/drain, and Channel Engineering for Si-based CMOS 2

Author: Fred Roozeboom

Publisher: The Electrochemical Society

Published: 2006

Total Pages: 472

ISBN-13: 1566775027

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These proceedings describe processing, materials, and equipment for CMOS front-end integration including gate stack, source/drain and channel engineering. Topics: strained Si/SiGe and Si/SiGe on insulator; high-mobility channels including III-V¿s, etc.; nanowires and carbon nanotubes; high-k dielectrics, metal and FUSI gate electrodes; doping/annealing for ultra-shallow junctions; low-resistivity contacts; advanced deposition (e.g. ALD, CVD, MBE), RTP, UV, plasma and laser-assisted processes.

Advanced Gate Stack, Source/Drain, and Channel Engineering for Si-Based CMOS 6: New Materials, Processes, and Equipment
Advanced Gate Stack, Source/Drain, and Channel Engineering for Si-Based CMOS 6: New Materials, Processes, and Equipment

Author: E. P. Gusev

Publisher: The Electrochemical Society

Published: 2010-04

Total Pages: 426

ISBN-13: 1566777917

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These proceedings describe processing, materials and equipment for CMOS front-end integration including gate stack, source/drain and channel engineering. Topics: strained Si/SiGe and Si/SiGe on insulator; high-mobility channels including III-V¿s, etc.; nanowires and carbon nanotubes; high-k dielectrics, metal and FUSI gate electrodes; doping/annealing for ultra-shallow junctions; low-resistivity contacts; advanced deposition (e.g. ALD, CVD, MBE), RTP, UV, plasma and laser-assisted processes.

Nano-CMOS Gate Dielectric Engineering
Nano-CMOS Gate Dielectric Engineering

Author: Hei Wong

Publisher: CRC Press

Published: 2017-12-19

Total Pages: 251

ISBN-13: 1351833286

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According to Moore’s Law, not only does the number of transistors in an integrated circuit double every two years, but transistor size also decreases at a predictable rate. At the rate we are going, the downsizing of CMOS transistors will reach the deca-nanometer scale by 2020. Accordingly, the gate dielectric thickness will be shrunk to less than half-nanometer oxide equivalent thickness (EOT) to maintain proper operation of the transistors, leaving high-k materials as the only viable solution for such small-scale EOT. This comprehensive, up-to-date text covering the physics, materials, devices, and fabrication processes for high-k gate dielectric materials, Nano-CMOS Gate Dielectric Engineering systematically describes how the fundamental electronic structures and other material properties of the transition metals and rare earth metals affect the electrical properties of the dielectric films, the dielectric/silicon and the dielectric/metal gate interfaces, and the resulting device properties. Specific topics include the problems and solutions encountered with high-k material thermal stability, defect density, and poor initial interface with silicon substrate. The text also addresses the essence of thin film deposition, etching, and process integration of high-k materials in an actual CMOS process. Fascinating in both content and approach, Nano-CMOS Gate Dielectric Engineering explains all of the necessary physics in a highly readable manner and supplements this with numerous intuitive illustrations and tables. Covering almost every aspect of high-k gate dielectric engineering for nano-CMOS technology, this is a perfect reference book for graduate students needing a better understanding of developing technology as well as researchers and engineers needing to get ahead in microelectronic engineering and materials science.

Advanced Gate Stack, Source/Drain, and Channel Engineering for Si-Based CMOS 4: New Materials, Processes, and Equipment
Advanced Gate Stack, Source/Drain, and Channel Engineering for Si-Based CMOS 4: New Materials, Processes, and Equipment

Author: P. J. Timans

Publisher: The Electrochemical Society

Published: 2008-05

Total Pages: 488

ISBN-13: 1566776260

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This issue describes processing, materials and equipment for CMOS front-end integration including gate stack, source/drain and channel engineering. Topics: strained Si/SiGe and Si/SiGe on insulator; high-mobility channels including III-V¿s, etc.; nanowires and carbon nanotubes; high-k dielectrics, metal and FUSI gate electrodes; doping/annealing for ultra-shallow junctions; low-resistivity contacts; advanced deposition (e.g. ALD, CVD, MBE), RTP, UV, plasma and laser-assisted processes.

Defects in HIgh-k Gate Dielectric Stacks
Defects in HIgh-k Gate Dielectric Stacks

Author: Evgeni Gusev

Publisher: Springer Science & Business Media

Published: 2006-02-15

Total Pages: 495

ISBN-13: 1402043678

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The goal of this NATO Advanced Research Workshop (ARW) entitled “Defects in Advanced High-k Dielectric Nano-electronic Semiconductor Devices”, which was held in St. Petersburg, Russia, from July 11 to 14, 2005, was to examine the very complex scientific issues that pertain to the use of advanced high dielectric constant (high-k) materials in next generation semiconductor devices. The special feature of this workshop was focus on an important issue of defects in this novel class of materials. One of the key obstacles to high-k integration into Si nano-technology are the electronic defects in high-k materials. It has been established that defects do exist in high-k dielectrics and they play an important role in device operation. However, very little is known about the nature of the defects or about possible techniques to eliminate, or at least minimize them. Given the absence of a feasible alternative in the near future, well-focused scientific research and aggressive development programs on high-k gate dielectrics and related devices must continue for semiconductor electronics to remain a competitive income producing force in the global market.

Nanoscale MOS Transistors
Nanoscale MOS Transistors

Author: David Esseni

Publisher: Cambridge University Press

Published: 2011-01-20

Total Pages: 489

ISBN-13: 1139494384

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Written from an engineering standpoint, this book provides the theoretical background and physical insight needed to understand new and future developments in the modeling and design of n- and p-MOS nanoscale transistors. A wealth of applications, illustrations and examples connect the methods described to all the latest issues in nanoscale MOSFET design. Key areas covered include: • Transport in arbitrary crystal orientations and strain conditions, and new channel and gate stack materials • All the relevant transport regimes, ranging from low field mobility to quasi-ballistic transport, described using a single modeling framework • Predictive capabilities of device models, discussed with systematic comparisons to experimental results

CMOS Past, Present and Future
CMOS Past, Present and Future

Author: Henry Radamson

Publisher: Woodhead Publishing

Published: 2018-04-03

Total Pages: 280

ISBN-13: 0081021402

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CMOS Past, Present and Future provides insight from the basics, to the state-of-the-art of CMOS processing and electrical characterization, including the integration of Group IV semiconductors-based photonics. The book goes into the pitfalls and opportunities associated with the use of hetero-epitaxy on silicon with strain engineering and the integration of photonics and high-mobility channels on a silicon platform. It begins with the basic definitions and equations, but extends to present technologies and challenges, creating a roadmap on the origins of the technology and its evolution to the present, along with a vision for future trends. The book examines the challenges and opportunities that materials beyond silicon provide, including a close look at high-k materials and metal gate, strain engineering, channel material and mobility, and contacts. The book's key approach is on characterizations, device processing and electrical measurements. - Addresses challenges and opportunities for the use of CMOS - Covers the latest methods of strain engineering, materials integration to increase mobility, nano-scaled transistor processing, and integration of CMOS with photonic components - Provides a look at the evolution of CMOS technology, including the origins of the technology, current status and future possibilities