Description

Book Synopsis

Uncover the Defects that Compromise Performance and Reliability
As microelectronics features and devices become smaller and more complex, it is critical that engineers and technologists completely understand how components can be damaged during the increasingly complicated fabrication processes required to produce them.





A comprehensive survey of defects that occur in silicon-based metal-oxide semiconductor field-effect transistor (MOSFET) technologies, this book also discusses flaws in linear bipolar technologies, silicon carbide-based devices, and gallium arsenide materials and devices. These defects can profoundly affect the yield, performance, long-term reliability, and radiation response of microelectronic devices and integrated circuits (ICs). Organizing the material to build understanding of the problems and provide a quick reference for scientists, engineers and technologists, this text reviews yield- and performance-limiti

Table of Contents

Defects in Ultra-Shallow Junctions. Hydrogen-Related Defects in Silicon, Germanium, and Silicon–Germanium Alloys. Defects in Strained-Si MOSFETs. The Effect of Defects on Electron Transport in Nanometer-Scale Electronic Devices: Impurities and Interface Roughness. Electrical Characterization of Defects in Gate Dielectrics. Dominating Defects in the MOS System: Pb and E0 Centers. Oxide Traps, Border Traps, and Interface Traps in SiO2. From 3D Imaging of Atoms to Macroscopic Device Properties. Defect Energy Levels in HfO2 and Related High-K Gate Oxides. Spectroscopic Studies of Electrically Active Defects in High-k Gate Dielectrics. Defects in CMOS Gate Dielectrics. Negative Bias Temperature Instabilities in High-k Gate Dielectrics. Defect Formation and Annihilation in Electronic Devices and the Role of Hydrogen. Toward Engineering Modeling of Negative Bias Temperature Instability. Wear-Out and Time-Dependent Dielectric Breakdown in Silicon Oxides. Defects Associated with Dielectric Breakdown in SiO2-Based Gate Dielectrics. Defects in Thin and Ultrathin Silicon Dioxides. Structural Defects in SiO2–Si Caused by Ion Bombardment. Impact of Radiation-Induced Defects on Bipolar Device Operation. Silicon Dioxide–Silicon Carbide Interfaces: Current Status and Recent Advances. Defects in SiC. Defects in Gallium Arsenide. Appendix: Selected High-Impact Journal Articles on Defects in Microelectronic Materials and Devices.

Defects in Microelectronic Materials and Devices

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A Hardback by Daniel M. Fleetwood, Ronald D. Schrimpf

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    View other formats and editions of Defects in Microelectronic Materials and Devices by Daniel M. Fleetwood

    Publisher: Taylor & Francis Inc
    Publication Date: 19/11/2008
    ISBN13: 9781420043761, 978-1420043761
    ISBN10: 1420043765
    Also in:
    Condensed matter physics Electrical engineering Microwave technology

    Description

    Book Synopsis

    Uncover the Defects that Compromise Performance and Reliability
    As microelectronics features and devices become smaller and more complex, it is critical that engineers and technologists completely understand how components can be damaged during the increasingly complicated fabrication processes required to produce them.





    A comprehensive survey of defects that occur in silicon-based metal-oxide semiconductor field-effect transistor (MOSFET) technologies, this book also discusses flaws in linear bipolar technologies, silicon carbide-based devices, and gallium arsenide materials and devices. These defects can profoundly affect the yield, performance, long-term reliability, and radiation response of microelectronic devices and integrated circuits (ICs). Organizing the material to build understanding of the problems and provide a quick reference for scientists, engineers and technologists, this text reviews yield- and performance-limiti

    Table of Contents

    Defects in Ultra-Shallow Junctions. Hydrogen-Related Defects in Silicon, Germanium, and Silicon–Germanium Alloys. Defects in Strained-Si MOSFETs. The Effect of Defects on Electron Transport in Nanometer-Scale Electronic Devices: Impurities and Interface Roughness. Electrical Characterization of Defects in Gate Dielectrics. Dominating Defects in the MOS System: Pb and E0 Centers. Oxide Traps, Border Traps, and Interface Traps in SiO2. From 3D Imaging of Atoms to Macroscopic Device Properties. Defect Energy Levels in HfO2 and Related High-K Gate Oxides. Spectroscopic Studies of Electrically Active Defects in High-k Gate Dielectrics. Defects in CMOS Gate Dielectrics. Negative Bias Temperature Instabilities in High-k Gate Dielectrics. Defect Formation and Annihilation in Electronic Devices and the Role of Hydrogen. Toward Engineering Modeling of Negative Bias Temperature Instability. Wear-Out and Time-Dependent Dielectric Breakdown in Silicon Oxides. Defects Associated with Dielectric Breakdown in SiO2-Based Gate Dielectrics. Defects in Thin and Ultrathin Silicon Dioxides. Structural Defects in SiO2–Si Caused by Ion Bombardment. Impact of Radiation-Induced Defects on Bipolar Device Operation. Silicon Dioxide–Silicon Carbide Interfaces: Current Status and Recent Advances. Defects in SiC. Defects in Gallium Arsenide. Appendix: Selected High-Impact Journal Articles on Defects in Microelectronic Materials and Devices.

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