The Science and Engineering of Microelectronic Fabrication

The Science and Engineering of Microelectronic Fabrication

Author: Stephen A. Campbell

Publisher: Oxford University Press, USA

Published: 1996

Total Pages: 572

ISBN-13:

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The Science and Engineering of Microelectronic Fabrication provides an introduction to microelectronic processing. Geared towards a wide audience, it may be used as a textbook for both first year graduate and upper level undergraduate courses and as a handy reference for professionals. The text covers all the basic unit processes used to fabricate integrated circuits including photolithography, plasma and reactive ion etching, ion implantation, diffusion, oxidation, evaporation, vapor phase epitaxial growth, sputtering and chemical vapor deposition. Advanced processing topics such as rapid thermal processing, nonoptical lithography, molecular beam epitaxy, and metal organic chemical vapor deposition are also presented. The physics and chemistry of each process is introduced along with descriptions of the equipment used for the manufacturing of integrated circuits. The text also discusses the integration of these processes into common technologies such as CMOS, double poly bipolar, and GaAs MESFETs. Complexity/performance tradeoffs are evaluated along with a description of the current state-of-the-art devices. Each chapter includes sample problems with solutions. The book also makes use of the process simulation package SUPREM to demonstrate impurity profiles of practical interest.


Fabrication Engineering at the Micro and Nanoscale

Fabrication Engineering at the Micro and Nanoscale

Author: Stephen A. Campbell

Publisher: OUP USA

Published: 2008-01-10

Total Pages: 0

ISBN-13: 9780195320176

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Designed for advanced undergraduate or first-year graduate courses in semiconductor or microelectronic fabrication, the third edition of Fabrication Engineering at the Micro and Nanoscale provides a thorough and accessible introduction to all fields of micro and nano fabrication.


Introduction to Microelectronic Fabrication

Introduction to Microelectronic Fabrication

Author: Richard C. Jaeger

Publisher: Pearson

Published: 2002

Total Pages: 0

ISBN-13: 9780201444940

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For courses in Theory and Fabrication of Integrated Circuits. The author's goal in writing this text was to present a concise survey of the most up-to-date techniques in the field. It is devoted exclusively to processing, and is highlighted by careful explanations, clear, simple language, and numerous fully-solved example problems. This work assumes a minimal knowledge of integrated circuits and of terminal behavior of electronic components such as resistors, diodes, and MOS and bipolar transistors.


Electron-Beam Technology in Microelectronic Fabrication

Electron-Beam Technology in Microelectronic Fabrication

Author: George Brewer

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 377

ISBN-13: 0323153410

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Electron-Beam Technology in Microelectronic Fabrication presents a unified description of the technology of high resolution lithography. This book is organized into six chapters, each treating a major segment of the technology of high resolution lithography. The book examines topics such as the physics of interaction of the electrons with the polymer resist in which the patterns are drawn, the machines that generate and control the beam, and ways of applying electron-beam lithography in device fabrication and in the making of masks for photolithographic replication. Chapter 2 discusses fundamental processes by which patterns are created in resist masks. Chapter 3 describes electron-beam lithography machines, including some details of each of the major elements in the electron-optical column and their effect on the focused electron beam. Chapter 4 presents the use of electron-beam lithography to make discrete devices and integrated circuits. Chapter 5 looks at the techniques and economics of mask fabrication by the use of electron beams. Finally, Chapter 6 presents a comprehensive description and evaluation of the several high resolution replication processes currently under development. This book will be of great value to students and to engineers who want to learn the unique features of high resolution lithography so that they can apply it in research, development, or production of the next generation of microelectronic devices and circuits.


Plasma Electronics

Plasma Electronics

Author: Toshiaki Makabe

Publisher: CRC Press

Published: 2006-03-27

Total Pages: 355

ISBN-13: 1420012274

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Without plasma processing techniques, recent advances in microelectronics fabrication would not have been possible. But beyond simply enabling new capabilities, plasma-based techniques hold the potential to enhance and improve many processes and applications. They are viable over a wide range of size and time scales, and can be used for deposition,


Chemical Mechanical Planarization of Microelectronic Materials

Chemical Mechanical Planarization of Microelectronic Materials

Author: Joseph M. Steigerwald

Publisher: John Wiley & Sons

Published: 2008-09-26

Total Pages: 337

ISBN-13: 3527617752

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Chemical Mechanical Planarization (CMP) plays an important role in today's microelectronics industry. With its ability to achieve global planarization, its universality (material insensitivity), its applicability to multimaterial surfaces, and its relative cost-effectiveness, CMP is the ideal planarizing medium for the interlayered dielectrics and metal films used in silicon integrated circuit fabrication. But although the past decade has seen unprecedented research and development into CMP, there has been no single-source reference to this rapidly emerging technology-until now. Chemical Mechanical Planarization of Microelectronic Materials provides engineers and scientists working in the microelectronics industry with unified coverage of both the fundamental mechanisms and engineering applications of CMP. Authors Steigerwald, Murarka, and Gutmann-all leading CMP pioneers-provide a historical overview of CMP, explain the various chemical and mechanical concepts involved, describe CMP materials and processes, review the latest scientific data on CMP worldwide, and offer examples of its uses in the microelectronics industry. They provide detailed coverage of the CMP of various materials used in the making of microcircuitry: tungsten, aluminum, copper, polysilicon, and various dielectric materials, including polymers. The concluding chapter describes post-CMP cleaning techniques, and most chapters feature problem sets to assist readers in developing a more practical understanding of CMP. The only comprehensive reference to one of the fastest growing integrated circuit manufacturing technologies, Chemical Mechanical Planarization of Microelectronic Materials is an important resource for research scientists and engineers working in the microelectronics industry. An indispensable resource for scientists and engineers working in the microelectronics industry Chemical Mechanical Planarization of Microelectronic Materials is the only comprehensive single-source reference to one of the fastest growing integrated circuit manufacturing technologies. It provides engineers and scientists who work in the microelectronics industry with unified coverage of both the fundamental mechanisms and engineering applications of CMP, including: * The history of CMP * Chemical and mechanical underpinnings of CMP * CMP materials and processes * Applications of CMP in the microelectronics industry * The CMP of tungsten, aluminum, copper, polysilicon, and various dielectrics, including polymers used in integrated circuit fabrication * Post-CMP cleaning techniques * Chapter-end problem sets are also included to assist readers in developing a practical understanding of CMP.


Fundamental Principles of Optical Lithography

Fundamental Principles of Optical Lithography

Author: Chris Mack

Publisher: John Wiley & Sons

Published: 2011-08-10

Total Pages: 503

ISBN-13: 1119965071

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The fabrication of an integrated circuit requires a variety of physical and chemical processes to be performed on a semiconductor substrate. In general, these processes fall into three categories: film deposition, patterning, and semiconductor doping. Films of both conductors and insulators are used to connect and isolate transistors and their components. By creating structures of these various components millions of transistors can be built and wired together to form the complex circuitry of modern microelectronic devices. Fundamental to all of these processes is lithography, ie, the formation of three-dimensional relief images on the substrate for subsequent transfer of the pattern to the substrate. This book presents a complete theoretical and practical treatment of the topic of lithography for both students and researchers. It comprises ten detailed chapters plus three appendices with problems provided at the end of each chapter. Additional Information: Visiting http://www.lithoguru.com/textbook/index.html enhances the reader's understanding as the website supplies information on how you can download a free laboratory manual, Optical Lithography Modelling with MATLABĀ®, to accompany the textbook. You can also contact the author and find help for instructors.


Silicon Micromachining

Silicon Micromachining

Author: Miko Elwenspoek

Publisher: Cambridge University Press

Published: 2004-08-19

Total Pages: 424

ISBN-13: 9780521607674

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A comprehensive overview of the key techniques used in the fabrication of micron-scale structures in silicon; for graduate students and researchers.


Photomask Fabrication Technology

Photomask Fabrication Technology

Author: Benjamin G. Eynon

Publisher: McGraw Hill Professional

Published: 2005-08-11

Total Pages: 589

ISBN-13: 0071588914

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Photomasks, the printing masters for the fabrication of integrated circuits, have become a necessity of modern semiconductor manufacturing. This book details the science and technology of industrial photo mask production, including fundamental principles, industrial production flows, and technological evolution.