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OverviewIon implantation offers one of the best examples of a topic that starting from the basic research level has reached the high technology level within the framework of microelectronics. As the major or the unique procedure to selectively dope semiconductor materials for device fabrication, ion implantation takes advantage of the tremendous development of microelectronics and it evolves in a multidisciplinary frame. Physicists, chemists, materials sci entists, processing, device production, device design and ion beam engineers are all involved in this subject. The present monography deals with several aspects of ion implantation. The first chapter covers basic information on the physics of devices together with a brief description of the main trends in the field. The second chapter is devoted to ion im planters, including also high energy apparatus and a description of wafer charging and contaminants. Yield is a quite relevant is sue in the industrial surrounding and must be also discussed in the academic ambient. The slowing down of ions is treated in the third chapter both analytically and by numerical simulation meth ods. Channeling implants are described in some details in view of their relevance at the zero degree implants and of the available industrial parallel beam systems. Damage and its annealing are the key processes in ion implantation. Chapter four and five are dedicated to this extremely important subject. Full Product DetailsAuthor: Emanuele RiminiPublisher: Springer-Verlag New York Inc. Imprint: Springer-Verlag New York Inc. Edition: Softcover reprint of the original 1st ed. 1995 Volume: 293 Dimensions: Width: 15.50cm , Height: 2.10cm , Length: 23.50cm Weight: 0.623kg ISBN: 9781461359524ISBN 10: 146135952 Pages: 393 Publication Date: 23 February 2014 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand We will order this item for you from a manufactured on demand supplier. Table of Contents1 Semiconductor Devices.- 1.1 Introduction.- 1.2 Semiconductor Physics.- 1.3 p-n Junction and Diode.- 1.4 Unipolar and Bipolar Transistors.- 1.5 Ion Implantation and Semiconductor Devices.- 1.6 Damage and Yield.- 1.7 Future Trend.- 2 Ion Implanters.- 2.1 Introduction.- 2.2 Ion Sources.- 2.3 High Energy Implanters.- 2.4 Magnetic Analyzer and Beam Transport.- 2.5 Energy Contamination.- 2.6 Scan System and Current Measurement.- 2.7 Wafer Cooling.- 2.8 Wafer Charging.- 2.9 Uniformity Control and Mapping.- 2.10 Contaminants and Yield.- 2.11 Plasma Immersion Ion Implantation.- 3 Range Distribution.- 3.1 Introduction.- 3.2 Elastic Stopping Power.- 3.3 Electronic Energy Loss.- 3.4 Depth Profile of Implanted Ions.- 3.5 Penetration Anomalies.- 3.6 Channeling Implants.- 3.7 Lateral Spreading.- 3.8 Simulation of Range Distribution.- 4 Radiation Damage.- 4.1 Introduction.- 4.2 Collision Cascade.- 4.3 Damage Distribution.- 4.4 Crystalline Defects.- 4.5 Primary Defects.- 4.6 Hot Implants.- 4.7 Ion Beam Induced Enhanced Crystallization.- 4.8 Ion Implantation into Localized Si Areas.- 5 Annealing and Secondary Defects.- 5.1 Introduction.- 5.2 Solid Phase Epitaxial Growth of Amorphous Silicon.- 5.3 Annealing of Low-Dose Heavy - Ion Implant.- 5.4 Regrowth of Amorphous Layer Under a Mask.- 5.5 Annealing of Heavily Disordered Regions.- 5.6 Rapid Thermal Processing.- 5.7 Impurity Diffusion During Annealing.- 5.8 Interaction of Impurities with Ion Implanted Defects.- 5.9 Defect Engineering.- 6 Analytical Techniques.- 6.1 Introduction.- 6.2 Secondary Ion Mass Spectrometry.- 6.3 Spreading Resistance Profilometry: One and Two Dimensional Analyses.- 6.4 Carrier and Mobility Profiles.- 6.5 Rutherford Backscattering and Channeling Effect.- 6.6 Transmission Electron Microscopy.- 7 Silicon Based Devices.- 7.1 Introduction.- 7.2 Threshold Voltage Control in MOSFET.- 7.3 Short Channel Effects.- 7.4 Shallow Junctions.- 7.5 Complementary MOS Devices and Technology.- 7.6 Lifetime Engineering in Power Devices.- 7.7 High Energy Implant Applications.- 7.8 High-Speed Bipolar Transistors.- 8 Ion Implantation in Compound Semi-Conductor and Buried Layer Synthesis.- 8.1 Introduction.- 8.2 Ion Implantation in GaAs.- 8.3 Ion Implantation in InP.- 8.4 Isolation of III-V Semiconductors.- 8.5 Isolation of Superlattice and Quantum Well Structures.- 8.6 Synthesis of Buried Dielectric.- 8.7 Devices in SOI Substrates.- 8.8 Buried Metal Layer Formation.- 8.9 Compound Semiconductor Based Devices.- Selected References.- References.ReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |