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Ion implantation is one of the key processing steps in silicon integrated circuit technology. Some integrated circuits require up to 17 implantation steps and circuits are seldom processed with less than 10 implantation steps. Controlled doping at controlled depths is an essential feature of implantation. Ion beam processing can also be used to improve corrosion resistance, to harden surfaces, to reduce wear and, in general, to improve materials properties. This book presents the physics and materials science of ion implantation and ion beam modification of materials. It covers ion-solid…mehr
Ion implantation is one of the key processing steps in silicon integrated circuit technology. Some integrated circuits require up to 17 implantation steps and circuits are seldom processed with less than 10 implantation steps. Controlled doping at controlled depths is an essential feature of implantation. Ion beam processing can also be used to improve corrosion resistance, to harden surfaces, to reduce wear and, in general, to improve materials properties. This book presents the physics and materials science of ion implantation and ion beam modification of materials. It covers ion-solid interactions used to predict ion ranges, ion straggling and lattice disorder. Also treated are shallow-junction formation and slicing silicon with hydrogen ion beams. Topics important for materials modification, such as ion-beam mixing, stresses, and sputtering, are also described.
Michael Nastasi, Los Alamos National Laboratory, NM, USA / James W. Mayer, Arizona State University, Tempe, AZ, USA
Inhaltsangabe
General Features and Fundamental Concepts.- Particle Interactions.- Dynamics of Binary Elastic Collisions.- Cross-Section.- Ion Stopping.- Ion Range and Range Distribution.- Displacements and Radiation Damage.- Channeling.- Doping, Diffusion and Defects in Ion-Implanted Si.- Crystallization and Regrowth of Amorphous Si.- Si Slicing and Layer Transfer: Ion-Cut.- Surface Erosion During Implantation: Sputtering.- Ion-Induced Atomic Intermixing at the Interface: Ion Beam Mixing.- Application of Ion Implantation Techniques in CMOS Fabrication.- Ion implantation in CMOS Technology: Machine Challenges.
General Features and Fundamental Concepts.- Particle Interactions.- Dynamics of Binary Elastic Collisions.- Cross-Section.- Ion Stopping.- Ion Range and Range Distribution.- Displacements and Radiation Damage.- Channeling.- Doping, Diffusion and Defects in Ion-Implanted Si.- Crystallization and Regrowth of Amorphous Si.- Si Slicing and Layer Transfer: Ion-Cut.- Surface Erosion During Implantation: Sputtering.- Ion-Induced Atomic Intermixing at the Interface: Ion Beam Mixing.- Application of Ion Implantation Techniques in CMOS Fabrication.- Ion implantation in CMOS Technology: Machine Challenges.
General Features and Fundamental Concepts.- Particle Interactions.- Dynamics of Binary Elastic Collisions.- Cross-Section.- Ion Stopping.- Ion Range and Range Distribution.- Displacements and Radiation Damage.- Channeling.- Doping, Diffusion and Defects in Ion-Implanted Si.- Crystallization and Regrowth of Amorphous Si.- Si Slicing and Layer Transfer: Ion-Cut.- Surface Erosion During Implantation: Sputtering.- Ion-Induced Atomic Intermixing at the Interface: Ion Beam Mixing.- Application of Ion Implantation Techniques in CMOS Fabrication.- Ion implantation in CMOS Technology: Machine Challenges.
General Features and Fundamental Concepts.- Particle Interactions.- Dynamics of Binary Elastic Collisions.- Cross-Section.- Ion Stopping.- Ion Range and Range Distribution.- Displacements and Radiation Damage.- Channeling.- Doping, Diffusion and Defects in Ion-Implanted Si.- Crystallization and Regrowth of Amorphous Si.- Si Slicing and Layer Transfer: Ion-Cut.- Surface Erosion During Implantation: Sputtering.- Ion-Induced Atomic Intermixing at the Interface: Ion Beam Mixing.- Application of Ion Implantation Techniques in CMOS Fabrication.- Ion implantation in CMOS Technology: Machine Challenges.
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