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Opto-Mechanical Systems Design, Fourth Edition, Two Volume Set, by Paul Yoder, Daniel Vukobratovich
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Opto-Mechanical Systems Design, Fourth Edition is different in many ways from its three earlier editions: coauthor Daniel Vukobratovich has brought his broad expertise in materials, opto-mechanical design, analysis of optical instruments, large mirrors, and structures to bear throughout the book; Jan Nijenhuis has contributed a comprehensive new chapter on kinematics and applications of flexures; and several other experts in special aspects of opto-mechanics have contributed portions of other chapters. An expanded feature―a total of 110 worked-out design examples―has been added to several chapters to show how the theory, equations, and analytical methods can be applied by the reader. Finally, the extended text, new illustrations, new tables of data, and new references have warranted publication of this work in the form of two separate but closely entwined volumes.
The first volume, Design and Analysis of Opto-Mechanical Assemblies, addresses topics pertaining primarily to optics smaller than 50 cm aperture. It summarizes the opto-mechanical design process, considers pertinent environmental influences, lists and updates key parameters for materials, illustrates numerous ways for mounting individual and multiple lenses, shows typical ways to design and mount windows and similar components, details designs for many types of prisms and techniques for mounting them, suggests designs and mounting techniques for small mirrors, explains the benefits of kinematic design and uses of flexures, describes how to analyze various types of opto-mechanical interfaces, demonstrates how the strength of glass can be determined and how to estimate stress generated in optics, and explains how changing temperature affects opto-mechanical assemblies.
The second volume, Design and Analysis of Large Mirrors and Structures, concentrates on the design and mounting of significantly larger optics and their structures, including a new and important topic: detailed consideration of factors affecting large mirror performance. The book details how to design and fabricate very large single-substrate, segmented, and lightweight mirrors; describes mountings for large mirrors with their optical axes in vertical, horizontal, and variable orientations; indicates how metal and composite mirrors differ from ones made of glass; explains key design aspects of optical instrument structural design; and takes a look at an emerging technology―the evolution and applications of silicon and silicon carbide in mirrors and other types of components for optical applications.
- Sales Rank: #566836 in Books
- Published on: 2015-04-14
- Original language: English
- Number of items: 2
- Dimensions: 10.30" h x 3.10" w x 7.20" l, .0 pounds
- Binding: Hardcover
- 1672 pages
Review
"This is a great starting point and reference tool for engineers coming into this field. …it gives a concise review of metal mirrors identifying the key design and manufacturing practices that have been developed across the industry through the past two decades. The extensive list of references provides original source data for further reading on any topic."
―Dr. Alan R. Hedges, II-VI Incorporated
"… [the previous edition] is my go-to reference for all things optomechanics, so I anticipate the new edition will get just as much use. … The large number of illustrations, real-world examples, material property data, and additional references make this an excellent resource for any practicing optomechanical engineer."
―Katie Schwertz, Edmund Optics
"… main strength of this book is very comprehensive coverage of the key optomechanical design concepts and analytical methods that can be applied directly in the design and development of simple to very complex optical system. The information is easy to understand and therefore easy to customize and apply to new optical systems or instruments being developed. It is rare to find such a wealth of knowledge about many related topics in a single book."
―Anees Ahmad, Raytheon Missile Systems & College of Optical Sciences, University of Arizona, Tucson, USA
"… an industry standard in the field of Opto-mechanical design for many years. A must for mechanical engineers involved in mounting and design of high acuity optical systems."
―John Pepi, L-3 Communications SSG
"… a great reference book which covers many interesting topics and technologies which are practical and applicable to high precision optical systems."
―Myung Cho, National Optical Astronomy Observatory (NOAO)
"… probably the most comprehensive, detailed, and up-to-date text on opto-mechanics."
Professor Nathan Kopeika
About the Author
Paul Yoder (BS physics, Juniata College, Huntingdon, Pennsylvania, 1947, and MS physics, Penn State University, University Park, Pennsylvania, 1950) learned optical design and opto-mechanical engineering at the U.S. Army’s Frankford Arsenal (1951–1961). He then applied those skills at Perkin-Elmer Corporation (1961–1986) and served the optical community as a consultant in optical and opto-mechanical engineering (1986–2006). A fellow of the OSA and SPIE, Yoder has authored numerous chapters on opto-mechanics, published more than 60 papers, been awarded 14 U.S. and several foreign patents, and taught more than 75 short courses for SPIE, U.S. government agencies, and industry.
Daniel Vukobratovich is senior principal multidisciplinary engineer at Raytheon Systems, Tucson, Arizona, and adjunct professor at the University of Arizona. He has authored more than 50 papers, taught short courses in opto-mechanics in 12 different countries, and consulted for more than 40 companies. A SPIE fellow, he is a founding member of the opto-mechanics working group. He holds international patents and received an IR-100 award for work on metal matrix composite optical materials. He led development on a series of ultra-lightweight telescopes using new materials, and worked on space telescope systems for STS-95, Mars Observer, Mars Global Surveyor, and FUSE.
Most helpful customer reviews
17 of 17 people found the following review helpful.
Obsolete and irrelevant, a few useful sections
By Daniel T Brown
A more accurate title for the book would be: "Design examples from optical systems for US military and aerospace applications, approximately 1950 to 1990, well-illustrated." Given this more accurate title, the book will be of interest to a few specialists.
The core chapters of the book present examples of how various opto-mechanical design problems were solved in a variety of applications. Almost all the examples are taken from US military and aerospace designs, with a very few from industrial optics. The designs are well-illustrated with relevant drawings, with good reproduction. The book appears irrelevant to the design of modern industrial, commercial, and consumer optical systems.
The book is not prescriptive. For the various design challenges described there is little information about what approaches might be considered or what tradeoffs are relevant. The book is primarily a sequence of examples. Each chapter refers to other books and papers, but these references are not organized to be of use to further learning by the reader.
The core chapters of the book are:
Chapter 4: mounting individual lenses, 72 pages
Chapter 5: mounting multiple lenses, 72 pages
Chapter 6: mounting windows and filters, 30 pages
Chapter 7: designing and mounting prisms, 70 pages
Chapter 8: design and mounting small, nonmetallic mirrors, gratings, and pellicles, 48 pages
Chapters 9-13: large mirrors, 210 pages
Notice that the chapters on the design of large mirrors, primarily for astronomical and space-borne telescopes, are almost as long as the entire rest of the core chapters of the book on optical design.
The non-core chapters of the book discuss more general topics. These are for the most part astonishingly poorly written and edited. I am amazed that a well-regarded organization such as the SPIE and a well-regarded publisher such as Taylor and Francis would print a book containing text of this quality. As a randomly-selected example, consider chapter 2 (environmental influences), section 2.2.2 (pressure). The paragraphs, in sequence, have the topics:
1. Definition of pressure, including discussion of how the US customary unit of pressure measured in mm of mercury is derived.
2. Statement of the pressure range to consider for optical instrument design, primarily in the atmosphere, but also space and pressurized spaces.
3. Discussion of the atmosphere of the earth, approximate equation given for atmospheric pressure with distance units in US miles. Reference to graph of pressure vs. altitude (units in km), the range is for spacecraft design (to 10000 km). [Note: This mixing of units - even in a single paragraph - is common throughout the book. A discussion may use one set of units, a referenced equation a different set. Read the text very carefully before using any of the equations. Better yet, find a reliable book instead of this one.]
4. Statement of problems encountered due to incorrect sealing of optical systems, allowing contaminants to enter during altitude changes.
5. Statement of problems encountered due to pressures within optical systems caused by failure to vent during altitude changes.
6. Statement of problems encountered due to outgassing at low pressures
7. Statement of overpressure problems due to high-speed movement through air or water. Discussion of thermal problems resulting from this motion, mention of materials and coatings to reduce thermal stresses. [Note: This mixing of topics - even in a single paragraph - is very common. The writing frequently appears to be a first draft, before any organization or editing. Essential material on one topic will be buried in the middle of a paragraph on a completely different topic. Also notice the lack of prescriptive information - the text mentions coatings to reduce thermal problems, without any additional information.]
8. Additional statement about pressure differential causing optical alignment errors due to mechanical deformation. This appears to be a continuation of the previous paragraph about high-speed movement, because the preceding paragraphs insisted the the optics must be vented, which would eliminate pressure differentials.
9. Mention that atmospheric pressure changes can change the index of refraction of air, changing the optical properties. [Notice that this is a different issue, the previous paragraphs have discussed mechanical, rather than optical, issues. Also notice that no equation is given for the index of refraction of air as a function of pressure.]
As you can see, this one section discusses venting, pressure differences due to altitude, pressure differences due to speed, thermal problems due to speed, and optical problems due to pressure differences and due to index of refraction changes. Only a few statements are useful for design, these are statements about venting optics, and the equation regarding pressure differences due to altitude (with the altitude measured in miles!)
The core chapters themselves have their own oddities. For example, chapter 4 regarding mounting of individual lenses (one of the chapters I found useful) seems to be written assuming that the reader will obtain standard lenses, then grind the edges for mounting. Section 4.2 (considerations of centered optics) is mostly about how to mount optics in grinding equipment in order to obtain properly-aligned edges.
While I found some individual sections of the book to be interesting and useful, all in all, I found the book to be a waste of money. The diagrams are very good, and make the text easy to understand. However, the vast majority of the text is useless. It is interesting to read about examples of some optical systems, but this does not help to design optics. The concentration on US military and aerospace optics of the mid-to-late 20th century is potentially of historical interest, but hardly of practical use. The lack of design information, poor organization, and unfocused writing, all make the book hard to use as a reference. The very poor presentation of equations and rather random collection of units in those equations make me distrust the little design information that is present.
0 of 0 people found the following review helpful.
Great help in expressing optical needs Mechanical Engineers
By EWhit
This product was purchased to provide a mechanical engineer information regarding various optical components. The mechanical engineer found this book to be an immense help in understanding the needs of optical systems.
Highly recommended.
0 of 0 people found the following review helpful.
Great book. As a Mechanical Engineer myself
By Kindle Customer
Great book. As a Mechanical Engineer myself, I used it in a lot of my designs, and they turned out to be very accurate after manufacturing. I used it primarily as a reference for most of the engineering problems that I might have.
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