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This volume is presented as a tribute to "two icons from the world of optics"--in the words of editors Harvey (Center for Research and Education in Optics and Lasers, U. of Central Florida) and Hooker (electrical and computer and engineering, U. of Colorado)--both of whom have been affiliated with the Optical Sciences Center at the U. of Arizona. Twenty-one papers from a tribute conference, some highly technical and others more personal, detail the honorees contributions to optics and optics education. These are followed by 45 journal article reprints authored by Bob Shannon and Roland Shack or their students in the technical areas of optical design and analysis, image evaluation, applications of the marginal ray height--chief ray height diagram, optical testing, optical fabrication, phased telescope arrays, aberration theory, propagation effects in the atmosphere, and diffraction/surface scatter phenomena. Finally, 14 short, informal "anecdotes and accolades" of the two scientists are presented from the conference and elsewhere. Annotation :2005 Book News, Inc., Portland, OR (booknews.com).
An accessible, well presented introduction to the theory of optical aberrations, covering key topics that are often missing from comparable books.
AERO-OPTICAL EFFECTS Explore the newest techniques and technologies used to mitigate the effects of air flow over airborne laser platforms Aero-Optical Effects: Physics, Analysis and Mitigation delivers a detailed and insightful introduction to aero-optics and fully describes the current understanding of the physical causes of aero-optical effects from turbulent flows at different speeds. In addition to presenting a thorough discussion of instrumentation, data reduction, and data analysis, the authors examine various approaches to aero-optical effect mitigation using both flow control and adaptive optics approaches. The book explores the sources, characteristics, measurement approaches, and mitigation means to reduce aero-optics wavefront error. It also examines the precise measurements of aero-optical effects and the instrumentation of aero-optics. Flow control for aero-optical applications is discussed, as are approaches like passive flow control, active and hybrid flow control, and closed-loop flow control. Readers will benefit from discussions of the applications of aero-optics in relation to fields like directed energy and high-speed communications. Readers will also enjoy a wide variety of useful features and topics, including: Comprehensive discussions of both aero-effects, which include the effects that air flow has over a beam director mounted on an aircraft, and aero-optics, which include atmospheric effects that degrade the ability of an airborne laser to focus a beam A treatment of air buffeting and its effects on beam stabilization and jitter An analysis of mitigating impediments to the use of high-quality laser beams from aircraft as weapons or communications systems Adaptive optics compensation for aero-optical disturbances Perfect for researchers, engineers, and scientists involved with laser weapon and beam control systems, Aero-Optical Effects: Physics, Analysis and Mitigation will also earn a place in the libraries of principal investigators in defense contract work and independent research and development.
Publishes papers reporting on research and development in optical science and engineering and the practical applications of known optical science, engineering, and technology.
Advanced Optical Instruments and Techniques includes twenty-three chapters providing processes, methods, and procedures of cutting-edge optics engineering design and instrumentation. Topics include biomedical instrumentation and basic and advanced interferometry. Optical metrology is discussed, including point and full-field methods. Active and adaptive optics, holography, radiometry, the human eye, and visible light are covered as well as materials, including photonics, nanophotonics, anisotropic materials, and metamaterials.
"Aden B. Meinel and wife Marjorie P. Meinel stood at the confluence of several overarching technological developments of the 20th century: postwar aerial surveillance by spy planes and satellites, solar energy, the evolution of telescope design, interdisciplinary optics, and photonics. In 1945 he was a Navy Ensign ordered to find the secret tunnels in Nazi Germany where the V-2 rockets menacing Great Britain and Belgium were being manufactured. After receiving both his B.A. degree and Ph.D. in astronomy from the University of California at Berkeley within three years, Aden was invited to join the scientific staff at Yerkes Observatory/University of Chicago. While there he was selected by the National Science Foundation to manage the development of a new national observatory on Kitt Peak, Arizona, and served as its first Director. In the early 1960s he founded the Optical Sciences Center at the University of Arizona, which later metamorphosed into the College of Optical Sciences with the doctoral program in interdisciplinary optics. It was here that he also designed the first Multiple Mirror Telescope and with wife Marjorie pioneered the feasibility of solar energy power on a commercial scale. Aden's knowledge and expertise in optics made him invaluable in research on cameras for spy satellites and spy planes overflying the Soviet Union and Southeast Asia. After retirement the Meinels worked for NASA/JPL on the precursor of the James Webb Space Telescope and on the exoplanet program. They also served on the team that corrected spherical aberration in the Hubble Space Telescope"--