Springer Handbook of Semiconductor Devices: Springer Handbooks
Editat de Massimo Rudan, Rossella Brunetti, Susanna Reggianien Limba Engleză Hardback – 7 dec 2022
Nearly 100 leading scientists from industry and academia were selected to write the handbook's chapters, which were conceived for professionals and practitioners, material scientists, physicists and electrical engineers working at universities, industrial R&D, and manufacturers.
Starting from the description of the relevant technological aspects and fabrication steps, the handbook proceeds with a section fully devoted to the main conventional semiconductor devices like, e.g., bipolar transistors and MOS capacitors and transistors, used in the production of the standard integrated circuits, and the corresponding physical models. In the subsequent chapters, the scaling issues of the semiconductor-device technology are addressed, followed by the description of novel concept-based semiconductor devices. The last section illustrates the numerical simulation methods ranging from the fabrication processes to the device performances.
Each chapter is self-contained, and refers to related topics treated in other chapters when necessary, so that the reader interested in a specific subject can easily identify a personal reading path through the vast contents of the handbook.
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Specificații
ISBN-13: 9783030798260
ISBN-10: 3030798267
Pagini: 1679
Ilustrații: XXIV, 1679 p. 1335 illus., 1012 illus. in color.
Dimensiuni: 210 x 279 mm
Greutate: 3.95 kg
Ediția:1st ed. 2023
Editura: Springer International Publishing
Colecția Springer
Seria Springer Handbooks
Locul publicării:Cham, Switzerland
ISBN-10: 3030798267
Pagini: 1679
Ilustrații: XXIV, 1679 p. 1335 illus., 1012 illus. in color.
Dimensiuni: 210 x 279 mm
Greutate: 3.95 kg
Ediția:1st ed. 2023
Editura: Springer International Publishing
Colecția Springer
Seria Springer Handbooks
Locul publicării:Cham, Switzerland
Cuprins
Fabrication, characterization, and scaling issues.- Crystal growth.- Silicon oxidation.- Epitaxy.- Physical/chemical vapor deposition.- Lithography.- Etching.- Ion implantation.- Thermal diffusion.- Interconnects.- Diagnostic techniques.- Bipolar and MOS devices.- p-n and Schottky-barrier diodes.- MOS capacitors and charge-coupled devices.- Bipolar and MOS transistors.- Power devices.- Non-volatile memories.- Sensors.- Photodetectors.- Light sources.- Semiconductor lasers.- Measuring techniques.- New-generation devices.- Devices in 2D-layered materials.- Resonant-tunneling hetero-structures.- Nanotube and nanoribbon field-effect transistors.- Phase-Change Memories.- Resistive Memories.- Spin-transfer devices.- Piezoelectric devices.- Process and device modeling.- Numerical methods for the process steps.- Compact models.- Drift-diffusion models.- Hydrodynamic models.- Spherical-Harmonic expansion.- Quantum ballistic models.- Non-equilibrium Green function.- Finite-difference and exponential-fitting schemes.
Notă biografică
Massimo Rudan is Professor of Electronics at the University of Bologna. His research interests are in the field of physics of carrier transport and numerical analysis of semiconductor devices and solid-state sensors. He received a degree in Electrical Engineering in 1973 and a degree in Physics in 1976, both from the University of Bologna, Italy. In 1986 he has been a visiting scientist, on a one-year assignment, at the IBM Thomas J. Watson Research Center at Yorktown Heights, NY, studying the discretization techniques for the Boltzmann Transport Equation. In 1990 he became full professor at the University of Bologna. An IEEE Life Fellow, Massimo Rudan has coordinated several research projects funded by the European Commission, international Companies and Foundations, the National Council of Research, and the National Ministry of University and Research.
Rossella Brunetti is Professor of Condensed Matter Physics at the Department of Physics, Informatics and Mathematics of the University of Modena. Her research activity has mainly been focused on charge transport, in both semi-classical and quantum conditions, in semiconductor structures and devices. She received her Master degree cum laude in Physics in 1981, and the Ph. D. in Physics at the University of Modena, Italy, in 1987. Since 2002 she is associate professor at the same University. Rossella Brunetti has experience with a variety of numerical techniques which have been applied to validate theoretical models against experiments and to predict new effects. In the last years her research has focused on transport properties of chalcogenide materials in view of their applications in the field of emerging memory devices.
Susanna Reggiani is Professor at the School of Engineering of the University of Bologna. Her scientific activity has been devoted to the physics, modeling and characterization of electron devices, with special emphasis on transport models in semiconductors. She received the Ph.D. degree in Electrical Engineering from the University of Bologna in 2001. Since 2001 she is with the Department of Electronics and the Advanced Research Center for Electronic Systems (ARCES) of the same University. She has been involved in Projects dealing with TCAD analysis of power MOSFETs, modeling and characterization of hot-carrier stress degradation and reliability of wide-bandgap semiconductors, modeling of package influences on high-voltage ICs. In 2020 she became full professor.
Rossella Brunetti is Professor of Condensed Matter Physics at the Department of Physics, Informatics and Mathematics of the University of Modena. Her research activity has mainly been focused on charge transport, in both semi-classical and quantum conditions, in semiconductor structures and devices. She received her Master degree cum laude in Physics in 1981, and the Ph. D. in Physics at the University of Modena, Italy, in 1987. Since 2002 she is associate professor at the same University. Rossella Brunetti has experience with a variety of numerical techniques which have been applied to validate theoretical models against experiments and to predict new effects. In the last years her research has focused on transport properties of chalcogenide materials in view of their applications in the field of emerging memory devices.
Susanna Reggiani is Professor at the School of Engineering of the University of Bologna. Her scientific activity has been devoted to the physics, modeling and characterization of electron devices, with special emphasis on transport models in semiconductors. She received the Ph.D. degree in Electrical Engineering from the University of Bologna in 2001. Since 2001 she is with the Department of Electronics and the Advanced Research Center for Electronic Systems (ARCES) of the same University. She has been involved in Projects dealing with TCAD analysis of power MOSFETs, modeling and characterization of hot-carrier stress degradation and reliability of wide-bandgap semiconductors, modeling of package influences on high-voltage ICs. In 2020 she became full professor.
Textul de pe ultima copertă
This Springer Handbook comprehensively covers the topic of semiconductor devices, embracing all aspects from theoretical background to fabrication, modeling, and applications.
Nearly 100 leading scientists from industry and academia were selected to write the handbook's chapters, which were conceived for professionals and practitioners, material scientists, physicists and electrical engineers working at universities, industrial R&D, and manufacturers.
Starting from the description of the relevant technological aspects and fabrication steps, the handbook proceeds with a section fully devoted to the main conventional semiconductor devices like, e.g., bipolar transistors and MOS capacitors and transistors, used in the production of the standard integrated circuits, and the corresponding physical models. In the subsequent chapters, the scaling issues of the semiconductor-device technology are addressed, followed by the description of novel concept-based semiconductor devices. The last section illustrates the numerical simulation methods ranging from the fabrication processes to the device performances.
Each chapter is self-contained, and refers to related topics treated in other chapters when necessary, so that the reader interested in a specific subject can easily identify a personal reading path through the vast contents of the handbook.
Nearly 100 leading scientists from industry and academia were selected to write the handbook's chapters, which were conceived for professionals and practitioners, material scientists, physicists and electrical engineers working at universities, industrial R&D, and manufacturers.
Starting from the description of the relevant technological aspects and fabrication steps, the handbook proceeds with a section fully devoted to the main conventional semiconductor devices like, e.g., bipolar transistors and MOS capacitors and transistors, used in the production of the standard integrated circuits, and the corresponding physical models. In the subsequent chapters, the scaling issues of the semiconductor-device technology are addressed, followed by the description of novel concept-based semiconductor devices. The last section illustrates the numerical simulation methods ranging from the fabrication processes to the device performances.
Each chapter is self-contained, and refers to related topics treated in other chapters when necessary, so that the reader interested in a specific subject can easily identify a personal reading path through the vast contents of the handbook.
Caracteristici
Covers physical backgrounds, fabrication, application and modeling Describes in detail both conventional and innovative devices An indispensable resource for practitioners, professionals and researchers