Handbook of Optomechanical Engineering: Ahmad, Anees: 9780849301339: Book: Technology: eCampus.com

1 Optical Fundamentals

(44)

Ronald R. Willey

Robert E. Parks

1.1 Introduction

(2)

1.2 Geometric Optics Fundamentals

(6)

1.3 Drawings of Optical Components and Systems

(5)

1.4 Dimensional Tolerances and Error Budgets

(24)

1.5 Environmental Effects

(7)

2 Optomechanical Design Principles

(24)

Daniel Vukobratovich

2.1 Introduction

(1)

2.2 Service Environments

(1)

2.3 Structural Design

(5)

2.4 Kinematic Design

(4)

2.5 Athemalization

(7)

2.6 Vibration Control

(7)

3 Materials for Optical Systems

(20)

Roger A. Paquin

3.1 Introduction

(1)

3.2 Applications

(3)

3.3 Properties

(14)

3.4 Material Selection Criteria

(1)

3.5 Summary

(2)

4 Metal Mirrrors

(22)

Roger A. Paquin

4.1 Introduction

(1)

4.2 Dimensional Stability

(11)

4.3 Metal Mirror Materials

101

(4)

4.4 Fabrication Methods and Lightweighting

105

(3)

4.5 Summary

108

(3)

5 Lightweight

111

(40)

Mirror Design Daniel Vukobnratovich

5.1 Introduction

111

(1)

5.2 Estimating Mirror Weight

112

(1)

5.3 Mirror Self-Weight Deflection

113

(7)

5.4 Contoured Back Mirrors

120

(7)

5.5 Sandwich Mirrors

127

(11)

5.6 Open-Back Mirrors

138

(5)

5.7 Comparison of Mirror Performance

143

(8)

6 Optical Mounts: Lenses, Windows, Small Mirrors, and Prisms

151

(60)

Paul R. Yoder, Jr.

6.1 Introduction and Summary

151

(1)

6.2 Mounting Lenses

152

(4)

6.3 Lens Assemblies

176

(13)

6.4 Mounts for Windows, Filters, Shells, and Domes

189

(8)

6.5 Mounts for Small Mirrors

197

(5)

6.6 Mounts for Prisms

202

(9)

7 Adjustment Mechanisms

211

(44)

Anees Ahmad

7.1 Introduction

211

(1)

7.2 Types of Adjustment Mechanisms

212

(1)

7.3 Linear Adjustment Mechanisms

212

(23)

7.4 Tilt Adjustment Mechanisms

235

(8)

7.5 Rotary Adjustment Mechanisms

243

(7)

7.6 Design Guidelines for Adjustment Mechanisms

250

(2)

7.7 Summary

252

(3)

8 Structural Analysis of Optics

255

(74)

Victor Genberg

8.1 Introduction

256

(1)

8.2 Overview of Finite Element Theory

256

(7)

8.3 Symmetry Techniques

263

(10)

8.4 Displacement and Dynamic Models for Optics

273

(10)

8.5 Stress Models for Optics

283

(6)

8.6 Adhesive Bond Analysis

289

(9)

8.7 Mounts and Metering Structures

298

(7)

8.8 Optical Surface Evaluation

305

(5)

8.9 Modeling Tricks for Optical Structures

310

(5)

8.10 Ray Tracing

315

(3)

8.11 Model Checkout

318

(2)

8.12 Optimum Design

320

(6)

8.13 Summary

326

(3)

9 Thermal and Thermoelastic Analysis of Optics

329

(24)

Victor Genberg

9.1 Introduction

330

(1)

9.2 Heat Transfer Analysis

330

(7)

9.3 Model Types

337

(2)

9.4 Interpolation of Temperature Fields

339

(4)

9.5 Thermoelastic Analysis

343

(4)

9.6 Analogies

347

(5)

9.7 Summary

352

(1)

10 Fabriaction Methods

353

(32)

Darell Engelhaupt

10.1 Introduction

353

(1)

10.2 Fabrication Method Selection

354

(6)

10.3 Manufacturing Methods

360

(9)

10.4 Fabrication of Lightweight Components

369

(4)

10.5 Dimensional Stability Requirement for Optical Materials

373

(6)

10.6 Chemical and Vacuum Coating Processes in Optics

379

(4)

10.7 Summary

383

(2)

Index

385


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