Microlithography
Microlithography

Author: Bruce W. Smith

Publisher: CRC Press

Published: 2018-10-03

Total Pages: 864

ISBN-13: 1420051539

DOWNLOAD EBOOK

This new edition of the bestselling Microlithography: Science and Technology provides a balanced treatment of theoretical and operational considerations, from elementary concepts to advanced aspects of modern submicron microlithography. Each chapter reflects the current research and practices from the world's leading academic and industrial laboratories detailed by a stellar panel of international experts. New in the Second Edition In addition to updated information on existing material, this new edition features coverage of technologies developed over the last decade since the first edition appeared, including: Immersion Lithography 157nm Lithography Electron Projection Lithography (EPL) Extreme Ultraviolet (EUV) Lithography Imprint Lithography Photoresists for 193nm and Immersion Lithography Scatterometry Microlithography: Science and Technology, Second Edition authoritatively covers the physics, chemistry, optics, metrology tools and techniques, resist processing and materials, and fabrication methods involved in the latest generations of microlithography such as immersion lithography and extreme ultraviolet (EUV) lithography. It also looks ahead to the possible future systems and technologies that will bring the next generations to fruition. Loaded with illustrations, equations, tables, and time-saving references to the most current literature, this book is the most comprehensive and reliable source for anyone, from student to seasoned professional, looking to achieve robust, accurate, and cost-effective microlithography processes and systems.

Microlithography Fundamentals in Semiconductor Devices and Fabrication Technology
Microlithography Fundamentals in Semiconductor Devices and Fabrication Technology

Author: Saburo Nonogaki

Publisher: CRC Press

Published: 2018-10-08

Total Pages: 336

ISBN-13: 1482273764

DOWNLOAD EBOOK

"Explores the science and technology of lithographic processes and resist materials and summarizes the most recent innovations in semiconductor manufacturing. Considers future trends in lithography and resist material technology. Reviews the interaction of light, electron beams, and X-rays with resist materials."

Handbook of Microlithography, Micromachining, and Microfabrication: Micromachining and microfabrication
Handbook of Microlithography, Micromachining, and Microfabrication: Micromachining and microfabrication

Author: P. Rai-Choudhury

Publisher: SPIE Press

Published: 1997

Total Pages: 706

ISBN-13: 9780819423795

DOWNLOAD EBOOK

Focusing on the use of microlithography techniques in microelectronics manufacturing, this volume is one of a series addressing a rapidly growing field affecting the integrated circuit industry. New applications in such areas as sensors, actuators and biomedical devices, are described.

Introduction to Microlithography
Introduction to Microlithography

Author: L. F. Thompson

Publisher: Academic

Published: 1994

Total Pages: 568

ISBN-13:

DOWNLOAD EBOOK

Reviews the theory, materials, and processes used in the lithographic process by which circuit elements are fabricated (it is these elements' decreasing size that has made possible the miniaturization of electronic devices). After a brief historical introduction, four major topics are discussed: the physics of the lithographic process, organic resist materials, resist processing, and plasma etching. The new edition reflects the many changes that have occurred since the 1983 publication of this tutorial/reference. Annotation copyright by Book News, Inc., Portland, OR

Handbook of VLSI Microlithography, 2nd Edition
Handbook of VLSI Microlithography, 2nd Edition

Author: John N. Helbert

Publisher: Cambridge University Press

Published: 2001-04

Total Pages: 1026

ISBN-13: 0080946801

DOWNLOAD EBOOK

This handbook gives readers a close look at the entire technology of printing very high resolution and high density integrated circuit (IC) patterns into thin resist process transfer coatingsùincluding optical lithography, electron beam, ion beam, and x-ray lithography. The book's main theme is the special printing process needed to achieve volume high density IC chip production, especially in the Dynamic Random Access Memory (DRAM) industry. The book leads off with a comparison of various lithography methods, covering the three major patterning parameters of line/space, resolution, line edge and pattern feature dimension control. The book's explanation of resist and resist process equipment technology may well be the first practical description of the relationship between the resist process and equipment parameters. The basics of resist technology are completely coveredùincluding an entire chapter on resist process defectivity and the potential yield limiting effect on device production. Each alternative lithographic technique and testing method is considered and evaluated: basic metrology including optical, scanning-electron-microscope (SEM) techniques and electrical test devices, along with explanations of actual printing tools and their design, construction and performance. The editor devotes an entire chapter to today's sophisticated, complex electron-beam printers, and to the emerging x-ray printing technology now used in high-density CMOS devices. Energetic ion particle printing is a controllable, steerable technology that does not rely on resist, and occupies a final section of the handbook.

Optical Imaging in Projection Microlithography
Optical Imaging in Projection Microlithography

Author: Alfred Kwok-Kit Wong

Publisher: SPIE Press

Published: 2005

Total Pages: 280

ISBN-13: 9780819458292

DOWNLOAD EBOOK

Here for the first time is an integrated mathematical view of the physics and numerical modeling of optical projection lithography that efficiently covers the full spectrum of the important concepts. Alfred Wong offers rigorous underpinning, clarity in systematic formulation, physical insight into emerging ideas, as well as a system-level view of the parameter tolerances required in manufacturing. Readers with a good working knowledge of calculus can follow the step-by-step development, and technologists can gather general concepts and the key equations that result. Even the casual reader will gain a perspective on the key concepts, which will likely help facilitate dialog among technologists.

Handbook of VLSI Microlithography
Handbook of VLSI Microlithography

Author: John N. Helbert

Publisher: William Andrew

Published: 2001-04-01

Total Pages: 1025

ISBN-13: 0815517807

DOWNLOAD EBOOK

This handbook gives readers a close look at the entire technology of printing very high resolution and high density integrated circuit (IC) patterns into thin resist process transfer coatingsùincluding optical lithography, electron beam, ion beam, and x-ray lithography. The book's main theme is the special printing process needed to achieve volume high density IC chip production, especially in the Dynamic Random Access Memory (DRAM) industry. The book leads off with a comparison of various lithography methods, covering the three major patterning parameters of line/space, resolution, line edge and pattern feature dimension control. The book's explanation of resist and resist process equipment technology may well be the first practical description of the relationship between the resist process and equipment parameters. The basics of resist technology are completely coveredùincluding an entire chapter on resist process defectivity and the potential yield limiting effect on device production.Each alternative lithographic technique and testing method is considered and evaluated: basic metrology including optical, scanning-electron-microscope (SEM) techniques and electrical test devices, along with explanations of actual printing tools and their design, construction and performance. The editor devotes an entire chapter to today's sophisticated, complex electron-beam printers, and to the emerging x-ray printing technology now used in high-density CMOS devices. Energetic ion particle printing is a controllable, steerable technology that does not rely on resist, and occupies a final section of the handbook.

Handbook of VLSI Microlithography
Handbook of VLSI Microlithography

Author: William B. Glendinning

Publisher: William Andrew

Published: 2012-12-02

Total Pages: 672

ISBN-13: 1437728227

DOWNLOAD EBOOK

This handbook gives readers a close look at the entire technology of printing very high resolution and high density integrated circuit (IC) patterns into thin resist process transfer coatings-- including optical lithography, electron beam, ion beam, and x-ray lithography. The book's main theme is the special printing process needed to achieve volume high density IC chip production, especially in the Dynamic Random Access Memory (DRAM) industry. The book leads off with a comparison of various lithography methods, covering the three major patterning parameters of line/space, resolution, line edge and pattern feature dimension control. The book's explanation of resist and resist process equipment technology may well be the first practical description of the relationship between the resist process and equipment parameters. The basics of resist technology are completely covered -- including an entire chapter on resist process defectivity and the potential yield limiting effect on device production. Each alternative lithographic technique and testing method is considered and evaluated: basic metrology including optical, scanning-electron-microscope (SEM) techniques and electrical test devices, along with explanations of actual printing tools and their design, construction and performance. The editor devotes an entire chapter to today's sophisticated, complex electron-beam printers, and to the emerging x-ray printing technology now used in high-density CMOS devices. Energetic ion particle printing is a controllable, steerable technology that does not rely on resist, and occupies a final section of the handbook.