Holographic Imaging

This authoritative work focuses on practical holography, including methods for white light illumination, full color holography, and holographic recording of natural scenes. The book promotes a hands-on approach to making holograms and an understanding of why and how they work.Discussing the 3-D imaging technique of holography, this book covers the fundamental physical and optical principles of using diffraction to record and reconstruct images, human perception, and the history of holographic imaging with an explanation of both basic and advanced holographic concepts.The only all-inclusive treatment of holography-from fundamental principles to the most advanced concepts While several existing texts cover different aspects of the field of holography, none provides a complete, up-to-date, and accessible view of its popular, scientific, and engineering aspects. Now, from an author team that includes one of the worlds pioneers in the field, Holographic Imaging fills this need with a single, comprehensive text that covers the subject from traditional holography to the cutting-edge development of the worlds most advanced three-dimensional holographic images, holographic printing, and holographic video. Written in an engaging and easy-to-follow style, Holographic Imaging promotes a hands-on approach to making holograms and provides readers with a working understanding of how and why they work. Following a brief introduction to the fundamentals of light and diffraction, coverage includes: the diffraction efficiency of gratings, "platonic" holography, a ray-tracing analysis of holography, holographic lenses and in-line "Gabor" holography, off-axis "Leith & Upatnieks" holography, non-laser illumination of holograms, phase conjunction and real image projection, full-aperture transfer holography, white-light transmission "rainbow" holography, practical issues in rainbow holography, in-line "Denisyuk" reflection holography, off-axis reflection holography, edge-lit holography, computational display holography, holographic printing, and holographic television. Helpful diagrams and equations that summarize the mathematical and physical principles for each technique discussed make this an approachable resource for readers from a variety of backgrounds, including undergraduate and postgraduate students with an interest in optics, optoelectronics, and information display, as well as researchers, scientists, engineers, and technology-savvy artists. The late Stephen A. Benton, PhD, invented the white-light viewable "rainbow" hologram seen on credit cards and magazine covers. As a professor at MIT, he went on to invent the worlds first real-time, interactive, holographic video system. Dr. Benton established the Spatial Imaging Group at MIT to conduct research in 3-D display technologies and later became one of the MIT Media Laboratorys founding faculty members. He was a fellow of the Optical Society of America and of the Society for Imaging Science and Technology. A prolific author and inventor, he held numerous patents in optical physics, photography, and holography.Stephen A. Benton was a professor at MIT.V. Michael Bove, Jr. is Head of the Object-Based Media Group at MIT's Media Laboratory and directs the consumer electronics program CELab."While several existing texts cover different aspects of the field of holography, none provides a complete, up-to-date, and accessible view of its popular, scientific, and engineering aspects. Now, from an author team that includes one of the world's pioneers in the field, Holographic Imaging fills this need with a single, comprehensive text that covers the subject from traditional holography to the cutting-edge development of the world's most advanced three-dimensional holographic images, holographic printing, and holographic video. Written in an engaging and easy-to-follow style, Holographic Imaging promotes a hands-on approach to making holograms and provides readers with a working understanding of how and why they work." "Helpful diagrams and equations that summarize the mathematical and physical principles for each technique discussed make this an approachable resource for readers from a variety of backgrounds, including undergraduate and postgraduate students with an interest in optics, optoelectronics,and information display, as well as researchers, scientists, engineers, and technology-savvy artists."--BOOK JACKET.