Optomechanical Engineering Handbook Content

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FrontmatterOptomechanical Engineering Handbook Ed. Anees Ahmad Boca Raton: CRC Press LLC, 1999

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Optomechanik Engineering content

Transcript of Optomechanical Engineering Handbook Content

Page 1: Optomechanical Engineering Handbook Content

“Frontmatter”Optomechanical Engineering HandbookEd. Anees AhmadBoca Raton: CRC Press LLC, 1999

Page 2: Optomechanical Engineering Handbook Content

Optomechanical Engineering Contents

1 Optical Fundamentals Ronald R. Willey and Robert E. Parks1.1 Introduction1.2 Geometric Optics Fundamentals1.3 Drawings of Optical Components and Systems1.4 Dimensional Tolerances and Error Budgets1.5 Environmental Effects

2 Optomechanical Design Principles Daniel Vukobratovich2.1 Introduction2.2 Service Environments2.3 Structural Design2.4 Kinematic Design2.5 Athermalization2.6 Vibration Control

3 Materials for Optical Systems Roger A. Paquin3.1 Introduction3.2 Applications3.3 Properties3.4 Material Selection Criteria3.5 Summary

4 Metal Mirrors Roger A. Paquin4.1 Introduction4.2 Dimensional Stability4.3 Metal Mirror Materials4.4 Fabrication Methods and Lightweighting4.5 Summary

5 Lightweight Mirror Design Daniel Vukobratovich5.1 Introduction5.2 Estimating Mirror Weight5.3 Mirror Self-Weight Deflection5.4 Contoured Back Mirrors5.5 Sandwich Mirrors

© 1999 by CRC Press LLC

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5.6 Open-Back Mirrors5.7 Comparison of Mirror Performance

6 Optical Mounts: Lenses, Windows, Small Mirrors, and Prisms Paul R. Yoder, Jr.6.1 Introduction and Summary6.2 Mounting Lenses6.3 Lens Assemblies6.4 Mounts for Windows, Filters, Shells, and Domes6.5 Mounts for Small Mirrors6.6 Mounts for Prisms

7 Adjustment Mechanisms Anees Ahmad7.1 Introduction7.2 Types of Adjustment Mechanisms7.3 Linear Adjustment Mechanisms7.4 Tilt Adjustment Mechanisms7.5 Rotary Adjustment Mechanisms7.6 Design Guidelines for Adjustment Mechanisms7.7 Summary

8 Structural Analysis of Optics Victor Genberg8.1 Introduction8.2 Overview of Finite Element Theory8.3 Symmetry Techniques8.4 Displacement and Dynamic Models for Optics8.5 Stress Models for Optics8.6 Adhesive Bond Analysis8.7 Mounts and Metering Structures8.8 Optical Surface Evaluation8.9 Modeling Tricks for Optical Structures8.10 Ray Tracing8.11 Model Checkout8.12 Optimum Design8.13 Summary

9 Thermal and Thermoelastic Analysis of Optics Victor Genberg9.1 Introduction9.2 Heat Transfer Analysis9.3 Model Types9.4 Interpolation of Temperature Fields9.5 Thermoelastic Analysis9.6 Analogies9.7 Summary

10 Fabrication Methods Darell Engelhaupt10.1 Introduction10.2 Fabrication Method Selection10.3 Manufacturing Methods

© 1999 by CRC Press LLC

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10.4 Fabrication of Lightweight Components10.5 Dimensional Stability Requirements for Optical Materials10.6 Chemical and Vacuum Coating Processes in Optics10.7 Summary

© 1999 by CRC Press LLC