Integrated optomechanical analysis / Keith B. Doyle, Victor L. Genberg, Gregory J. Michels

By:

Doyle, Keith B [aut]

Contributor(s):

Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Series: Tutorial texts in optical engineering ; 58Publisher: Bellingham, Wash. <1000 20th St. Bellingham WA 98225-6705 USA> : SPIE, c2002Description: 1 online resource (xiv, 231 p. : ill.)ISBN:

9780819478658
0819446092
9780819446091

Subject(s):

Optical instruments

Additional physical formats: 0819446092. | 9780819446091. | Available in another form: No title DDC classification:

681.4
681/.4 21

LOC classification:

TS513

DOI: DOI: 10.1117/3.460595Online resources:

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Additional physical formats: Also available in print version.Summary: This tutorial presents optomechanical modeling techniques to effectively design and analyze high-performance optical systems. It discusses thermal and structural modeling methods that use finite-element analysis to predict the integrity and performance of optical elements and optical support structures. Includes accompanying CD-ROM with examplesSummary: Chapter 2. Optical Basics and Zernike Polynomials -- 2.1 Electromagnetic Basics -- 2.2 Polarization -- 2.3 Rays, Wavefronts, and Wavefront Error -- 2.4 Image Quality and Optical Performance -- 2.5 Image Formation -- 2.6 Zernike Polynomials -- 2.7 Legendre-Fourier Polynomials -- 2.8 Aspheric and x-y Polynomials -- References --Summary: Chapter 3. Optomechanical Displacement Analysis Methods -- 3.1 Displacement Models of Optics. 3.2 Displacement Models of Adhesive Bonds. 3.3 Displacement Models of Flexures and Mounts -- 3.4 Displacement Analysis Methods -- References --Summary: Chapter 4. Integration of Optomechanical Analyses -- 4.1 Optical Surface Positional Errors -- 4.2 Optical Surface Shape Changes -- 4.3 Line-of-Sight Jitter -- 4.4 Stress Birefringence -- 4.5 Mechanical Obscurations -- References --Summary: Chapter 5 Optothermal Analysis Methods -- 5.1. Thermo-Elastic Analysis -- 5.2 Thermo-Optic Analysis -- 5.3 Effects of Temperature on Optical System Performance -- 5.4 Optical Design Software -- 5.5 Thermo-Optic Finite Element Models -- 5.6 Bulk Volumetric Absorption -- 5.7 Mapping of Temperature Fields from the Thermal Model to the Structural Model -- 5.8 Analogous Techniques -- References --Summary: Chapter 6. Adaptive Optics Analysis Methods -- 6.1 Introduction -- 6.2 Method of Simulation -- 6.3 Coupled Adaptive Control Simulation and Structural Design Optimization -- References --Summary: Chapter 7. Optimization of Optomechanical Systems -- 7.1 Overview -- 7.2 Optimization Theory -- 7.3 Structural Optimization, Including Optical Measures -- 7.4 Integrated Thermal-Structural-Optical Optimization -- References --Summary: Chapter 8. Integrated Optomechanical Analysis of a Telescope -- 8.1 Overview -- 8.2 Optical Model Description -- 8.3 Structural Model Description -- 8.4 One-Gravity Static Performance -- 8.5 On-Orbit Image Motion Random Response -- 8.6 Optimizing PMA with Optical Measures -- 8.7 Adaptive PM -- 8.8 System-level Multidisciplinary Optimization -- References --Summary: Chapter 9. Integrated Optomechanical Analysis of a Lens Assembly -- 9.1 Overview -- 9.2 Thermal Analysis -- 9.3 Thermo-elastic Analysis -- 9.4 Stress Birefringence Analysis -- 9.5 Thermo-Optic Analysis -- 9.6 Optical Analysis -- IndexSummary: Introduction -- Chapter 1. Introduction to Mechanical Analysis Using Finite Elements -- 1.1 Integrated Optomechanical Analysis Issues -- 1.2 Elasticity Review -- 1.3 Basics of Finite Element Analysis -- 1.4 Symmetry in FE models -- 1.5 Stress Analysis -- 1.6 Vibrations -- 1.7 Model Checkout -- 1.8 Summary -- References --PPN: PPN: 1018189335Package identifier: Produktsigel: ZDB-50-SPI

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