Principles of Adaptive Optics is a comprehensive guide to adaptive optics systems and components. It covers all the basic principles, analytical tools, and instrumentation hardware included in an adaptive optics system. This single volume resource includes hundreds of references and outlines design and performance analysis of adaptive optics wavefront sensors, controls, correcting optics, and their integrated operation. The book discusses adaptive optics, system analysis and system design, and the major subsystems: wavefront sensors, correcting optics, wavefront reconstructors, and real-time controls. It details the principal equations that govern atmospheric turbulence compensation.
The book contains nearly 700 citations that cover a quarter century of research and development. It includes a new section on laser guide stars and their usage. It also includes recently declassified military information on laser guided stars and all the governing equations of wavefront error, imaging system resolution, beam tilt or wander, scintillation, temporal spectra, anisoplantism, and guide star position.
* Comprehensive guide to adaptive optics systems and components
* Covers the background and history of adaptive optics technology
* Contains nearly 700 citations covering a quarter century of research and development
* Includes new section on laser guide stars and their usage
* Details all the principal equations that govern atmospheric turbulence compensation
* Lays out the equations necessary to calculate system performance
* Describes many types of optical disturbances and the pros and cons of various adaptive optics system configurations
* Describes in detail how wavefront sensors, reconstructors, and deformable mirrors work
"synopsis" may belong to another edition of this title.
With Principles of Adaptive Optics there is no need to wade through 25 years of journals with more than 1500 articles published on adaptive optics to find what you're looking for. This one volume has a logical progression from the sources of aberrations that generate a need for adaptive optics, through systems analysis and system design, to descriptions of the major subsystems:wavefront sensors, deformable mirrors and other correcting optics, wavefront reconstructors, and real-time controls.
Adaptive optics has progressed from the laboratory and field experiments into surveillance systems, optical testing, medical research, and astronomical observatories around the world. A student, engineer, or scientist needs a single volume that describes all the basic principles, analytical tools, and instrumentation hardware that becomes an adaptive optics system. With hundreds of references, this book provides a road map to the design and performance analysis of adaptive optics wavefront sensors, controls, correcting optics and their integral operation. From the interested person just trying to find the buzzwords of adaptive optics to the experienced engineer looking for the equations that describe atmospheric compensation, Principles of Adaptive Optics will meet that goal.
The Second Edition of Principles of Adaptive Optics updates the technology principles with recently declassified military information in a new section on laser guide stars: how they work, how they are made and what is required to achieve optimum performance.
Because the bulk of fielded adaptive optics systems are used for atmospheric turbulence compensation, Principles of Adaptive Optics now contains all the governing equations regarding wavefront error, imaging, system resolution, beam tilt or wander, scintillation, temporal spectra, anisoplanatism, and guide position.
Robert K. Tyson holds a Ph.D. in Physics and MS in Physics from West Virginia University and a BS in Physics from Penn State University. Dr. Tyson has been a Senior Scientist at W.J. Schafer Associates, Inc. since 1987. He is currently supporting efforts in atmospheric propagation, space-based laser technology, astronomical instrumentation, and adaptive optics performance studies. He has contributed to technology development in the areas of wavefront sensors, deformable mirrors, microsurgical laser systems, and electronic countermeasures. Besides being the author of Principles of Adaptive Optics (Academic Press), he is the co-author of a chapter on adaptive optics in The Infrared & Electro-Optical Systems Handbook (ERIM & SPIE Press, Bellingham, Washington, 1993). He has more than twenty-five publications in the fields of optical aberration theory, adaptive optics systems, laser communications, medical imaging, and computer simulation technologies. He serves as a chairman of the SPIE International Technical Working Group on Adaptive Optics. Dr. Tyson was the invited lecturer at a University of Oxford physics colloquium in 1993 and lectured at Moscow State University in 1995. Before joining WJSA, Dr. Tyson was a Senior Project Engineer at United Technologies Optical Systems from 1978-1987. He was senior engineer in the Phased Array program office of United Technologies Optical Systems. He was technical director and deputy program manager of the Phased Array Concept Study and Brassboard (PACSBB) program for the Air Force Phillips Laboratory and BMDO. Prior to assignment to PACSBB, Dr. Tyson was manager and principal investigator of a number of beam control and optics contracts in both strategic and tactical areas.
"About this title" may belong to another edition of this title.
Book Description Academic Press, 1997. Hardcover. Book Condition: New. 2. Bookseller Inventory # DADAX0127059024
Book Description Academic Press, 1997. Hardcover. Book Condition: New. book. Bookseller Inventory # 0127059024
Book Description Book Condition: Brand New. Book Condition: Brand New. Bookseller Inventory # 97801270590201.0
Book Description Academic Pr, Boston, 1998. Hard Cover. Book Condition: New. No Jacket. Second Edition. New copy. Size: 8vo - over 7¾" - 9¾" tall. Bookseller Inventory # 025160