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๐Ÿ“

Principles of Lithography, Second Edition

โœ Scribed by Harry J. Levinson

Publisher
SPIE Press
Year
2005
Tongue
English
Leaves
424
Series
SPIE monograph PM146
Edition
2nd ed
Category
Library
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โœฆ Synopsis

Lithography is a field in which advances proceed at a swift pace. This book was written to address several needs, and the revisions for the second edition were made with those original objectives in mind. Many new topics have been included in this text commensurate with the progress that has taken place during the past few years, and several subjects are discussed in more detail. This book is intended to serve as an introduction to the science of microlithography for people who are unfamiliar with the subject. Topics directly related to the tools used to manufacture integrated circuits are addressed in depth, including such topics as overlay, the stages of exposure, tools, and light sources. This text also contains numerous references for students who want to investigate particular topics in more detail, and they provide the experienced lithographer with lists of references by topic as well. It is expected that the reader of this book will have a foundation in basic physics and chemistry. No topics will require knowledge of mathematics beyond elementary calculus.

Contents

- Preface

- Overview of lithography

- Optical pattern formation

- Photoresists

- Modeling and thin film effects

- Wafer steppers

- Color Plates overlay

- Masks and reticules

- Overcoming the diffraction limit

- Metrology

- The limits of optical lithography

- Lithography costs

- Alternative lithography techniques

- Appendix A: Coherence

- Index

โœฆ Table of Contents

Content: Preface --
1. Overview of lithography --
Problems. 2. Optical pattern formation --
2.1 The problem of imaging --
2.2 Aerial images --
2.3 The contribution of physics and chemistry --
2.4 Focus --
Problems --
References. 3. Photoresists --
3.1 Positive and negative resists --
3.2 Adhesion promotion --
3.3 Resist spin coating, softbake, and hardbake --
3.4 Photochemistry of novolak: DNQ g- and i-line resists --
3.5 Acid-catalyzed DUV resists --
3.6 Development and post-exposure bakes --
3.7 Operational characterization --
3.8 Line edge roughness --
3.9 Multilayer resist processes --
Problems --
References. 4. Modeling and thin film effects --
4.1 Models of optical imaging --
4.2 Aberrations --
4.3 Modeling photochemical reactions --
4.4 Thin film optical effects --
4.5 Post-exposure bakes --
4.6 Methods for addressing the problems --
of reflective substrates --
4.7 Development --
Problems --
References. 5. Wafer steppers --
5.1 Overview --
5.2 Light sources --
5.3 Illumination systems --
5.4 Reduction lenses --
5.5 Autofocus systems --
5.6 The wafer stage --
5.7 Scanning --
5.8 Dual-stage exposure tools --
Problems --
References. 6. Overlay --
6.1 Alignment systems --
6.1.1 Classification of alignment systems --
6.1.2 Optical methods for alignment and --
wafer-to-reticle referencing --
6.1.3 Number of alignment marks --
6.2 Overlay models --
6.3 Matching --
6.4 Process-dependent overlay effects --
Problems --
References. 7. Masks and reticles --
7.1 Overview --
7.2 Mask blanks --
7.3 Mechanical optical-pattern generators --
7.4 Electron beam lithography and mask writers --
7.5 Optical mask writers --
7.6 Resists for mask making --
7.7 Etching --
7.8 Pellicles --
Problems --
References. 8. Confronting the diffraction limit --
8.1 Off-axis illumination --
8.2 Optical proximity effects --
8.3 The mask error factor --
8.4 Phase-shifting masks --
Problems --
References. 9. Metrology --
9.1 Linewidth measurement --
9.1.1 Linewidth measurement using --
scanning electron microscope --
9.1.2 Scatterometry --
9.1.3 Electrical linewidth measurement --
9.2 Measurement of overlay --
References. 10. The limits of optical lithography --
10.1 The diffraction limit --
10.2 Improvements in optics --
10.3 The shortest wavelength --
10.4 Improved photoresists --
10.5 Flatter wafers --
10.6 How low can k1 go? --
10.7 Immersion lithography and maximum numerical aperture --
10.8 How far can optical lithography be extended? --
10.9 Resist limits --
10.10 Interferometric lithography --
Problems --
References. 11. Lithography costs --
11.1 Cost of ownership --
11.1.1 Capital costs --
11.1.2 Consumables --
11.1.3 Mask costs --
11.1.4 Rework --
11.1.5 Metrology --
11.1.6 Maintenance costs --
11.1.7 Labor costs --
11.1.8 Facilities costs --
11.2 Mix and match strategies --
Problems --
References. 12. Alternative lithography techniques --
12.1 Proximity x-ray lithography --
12.2 Extreme ultraviolet lithography --
EUV --
12.3 Electron-beam direct-write lithography --
12.4 Electron-projection lithography --
EPL --
12.4.1 Small-field EPL systems --
12.4.2 Large-field EPL systems --
12.5 Ion-projection lithography --
IPL --
12.6 Imprint lithography --
12.7 The ultimate future of lithography --
Problems --
References. --
Appendix A. Coherence --
Problems --
References --
Index.

โœฆ Subjects

Integrated circuits -- Design and construction. Microlithography. Lithographie <Halbleitertechnologie> Lithografie (Halbleitertechnologie)

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<span>"This text is intended to serve as an introduction to the science of microlithography, but also covers several subjects in depth, making it useful to the experienced lithographer as well. Topics directly related to manufacturing tools are addressed, including overlay, the stages of exposure, t