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Holographic [ˌhɒləˈgræfɪk] adj: (Physics / General Physics) of, relating to, or produced using holograms; three-dimensional, holographically  adv Hologram: the intermediate photograph (or photographic record) that contains information for reproducing a three-dimensional image by holography. Holography enables three-dimensional images to be made, it involves the use of a laser, interference, diffraction, light intensity recording and suitable illumination of the recording. This enables the image to change as the position and orientation of the viewing system changes in exactly the same way as if the object were still present, which makes the image appear three-dimensional. The holographic recording itself is not an image it consists of an apparently random structure of either varying intensity, density or profile. History

Holography was invented in 1947 by Hungarian physicist Dennis Gabor (Hungarian name: Gábor Dénes) (1900–1979), work for which he received the Nobel Prize in physics in 1971. It was made possible by pioneering work in the field of physics by other scientists like Mieczysław Wolfke who resolved technical issues that previously made advancements impossible. The discovery was an unexpected result of research into improving electron microscopes at the British Thomson-Houston Company in Rugby, England. The British Thomson-Houston company filed a patent in December 1947(patent GB685286), but the field did not really advance until the development of the laser in 1960.

The first holograms that recorded 3D objects were made in 1962 by Yuri Denisyuk in the Soviet Union; and by Emmett Leith and Juris Upatnieks in University of Michigan, USA. Advances in photochemical processing techniques, to produce high-quality display holograms were achieved by Nicholas J. Phillips. Several types of holograms can be made.

Transmission holograms, such as those produced by Leith and Upatnieks, are viewed by shining laser light through them and looking at the reconstructed image from the side of the hologram opposite the source. A later refinement, the "rainbow transmission" hologram allows more convenient illumination by white light rather than by lasers or other monochromatic sources. Rainbow holograms are commonly seen today on credit cards as a security feature and on product packaging. These versions of the rainbow transmission hologram are commonly formed as surface relief patterns in a plastic film, and they incorporate a reflective aluminium coating which provides the light from "behind" to reconstruct their imagery.

Another kind of common hologram, the reflection or Denisyuk hologram, is capable of multicolour image reproduction using a white light illumination source on the same side of the hologram as the viewer.

One of the most promising recent advances in the short history of holography has been the mass production of low-cost solid-state lasers—typically used by the millions in DVD recorders and other applications, but which are sometimes also useful for holography. These cheap, compact, solid-state lasers can under some circumstances compete well with the large, expensive gas lasers previously required to make holograms, and are already helping to make holography much more accessible to low-budget researchers, artists, and dedicated hobbyists.

How it works Holography (from the Greek, όλος-hòlòs whole + γραφή-grafè writing, drawing) is the science of producing holograms. Though holography is often referred to as 3D photography, this is a misconception. A better analogy is sound recording where the sound field is encoded in such a way that it can later be reproduced.It is a technique that allows the light scattered from an object to be recorded and later reconstructed so that it appears as if the object is in the same position relative to the recording medium as it was when recorded. The image changes as the position and orientation of the viewing system changes in exactly the same way is if the object were still present. Holograms can also be made using other types of waves. The technique of holography can also be used to optically store, retrieve, and process information. In holography, some of the light scattered from an object or a set of objects falls on the recording medium. A second light beam, known as the reference beam, also illuminates the recording medium, so that interference occurs between the the two beams. The resulting light field is an apparently random pattern of varying intensity which is the hologram. It can be shown that if the hologram is illuminated by the original reference beam, a light field is diffracted by the reference beam which is identical to the light field which was scattered by the object or objects. Thus, someone looking into the hologram 'sees' the objects even though they may no longer be present. There are a variety of recording materials which can be used, including photographic film.It is common to confuse volumetric displays with holograms, particularly in science fiction works such as Star Trek, Star Wars, Red Dwarf, and Quantum Leap.

Readings 1.	Optical holography: principles, techniques, and applications P. Hariharan, Cambridge University Press; 2 edition (1996), ISBN 978-0521439657 2.	Lasers and holography: an introduction to coherent optics W. E. Kock, Dover Publications (1981), ISBN 978-0486240411 3.	Principles of holography H. M. Smith, Wiley (1976), ISBN 978-0471803416 4.	G. Berger et. al, Digital Data Storage in a phase-encoded holograhic memory system: data quality and security, Proceedings of SPIE, Vol. 4988, p. 104-111 (2003) 5.	Holographic Visions: A History of New Science Sean F. Johnston, Oxford University Press (2006), ISBN 0-19-857122-4 External links •	— "Wavefront reconstruction using a coherent reference beam" — E. N. Leith et al. •	The nobel prize lecture of Denis Gabor •	Explora Museum in Frankfurt/Main — Germany •	3D Museum in Dinkelsbühl — Germany •	wikiHow - How to Make a Hologram •	MIT's Spatial Imaging Group with papers about holographic theory and Holographic video •	Medical Applications of Holograms •	How Stuff Works - holograms •	HoloWiki - a wiki for making holograms •	Center for the Holographic Arts, New York - a non-profit organisation promoting holograpy •	Faster way to produce holographic tiles •	Zebra Imaging, Makes large panel holograms for Industrial and Military Applications •	http://www.avconcepts.com/holographic-projection/ •	http://www.gizmag.com/holograph-3d-color-video-display-inexpensive-mit/28029/ •	See also •	Phase-coherent holography •	Integral imaging