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Leow S.T. Aloysius 3O3 (15).  Ever saw a Star Wars movie and wondered what is that green 3-D image of Yoda?  This image is actually a hologram.

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Presentation on theme: "Leow S.T. Aloysius 3O3 (15).  Ever saw a Star Wars movie and wondered what is that green 3-D image of Yoda?  This image is actually a hologram."— Presentation transcript:

1 Leow S.T. Aloysius 3O3 (15)

2  Ever saw a Star Wars movie and wondered what is that green 3-D image of Yoda?  This image is actually a hologram.

3  Holography was invented in 1947 by Hungarian physicist Dennis Gabor  Did not really advance until the invention of LASER in 1960  He received the Nobel Prize in physics in 1971

4  It is the process by which three- dimensional pictures can be stored and reproduced by laser light.  A hologram is therefore a record of an image as seen from many viewpoints.

5 What happens when a photo is taken: 1) The shutter opens. 2) Light passes through a lens and hits the photographic emulsion on a piece of film. 3) Silver halide reacts with the light and records its amplitude as it reflects off of the scene 4) The shutter closes

6  It is a point-to-point recording of the intensity of light rays that make up an image  Each point on the photograph records just the intensity of the light wave that illuminates that particular point.

7  When we develop the film and make a print of the picture, our brain interprets the light that reflects from the picture as a representation of the original image.

8  The wavelength affects the wave’s frequency.  This determines its color and is measured in cycles per second, or Hertz (Hz)

9 White light:  Contains different wavelengths traveling in different directions and different phase LASER light:  Monochromatic ( has one wavelength and one color)  Waves are in phase

10  White light can be used to make or view photographs but a hologram requires the organized light of a LASER  Holograms record differences in both amplitude and the phase  The light has to start out with one wavelength and one phase in order for the film to record these difference.

11 1) Light from the LASER is split to form object beam and reference beam. 2) Light from the object beam reflects off the object. 3) The light from the object and the reference beam form an interference pattern on the film.

12  Shine the light of a LASER on the hologram, in the same orientation as the reference beam  Because both the phase and intensity are reproduced, the image appears three-dimensional  The eye is focused behind the film to see the image suspended in space.

13 Things you need: 1) A LASER: Helium-Neon (HeNe) lasers are common in holography 2) Diverging Lenses 3) A beam splitter: Uses mirrors and prisms to spread a beam into two 4) Mirrors: To direct the beams of light to the correct location 5) Holographic film: To record light at high resolution

14 1) The laser points at the beam splitter, dividing the beam into two. 2) Mirrors are used to direct the beams to intended targets (eg. Make sure the object beam hits the object). 3) The two beams pass through diverging lenses and becomes a wide swath of light.

15 4) The object beam reflects off the object, onto the holographic film. 5) The reference beam hits the holographic film without reflecting off anything but the mirror.

16 A humorous video on the applications of holograms.

17 Holography Security Display Medical And many more…

18  The presence of holograms indicates the authenticity of these items  Security holograms are also being used in anti-counterfeiting, identification documents, including credit and phone cards, drivers licenses etc

19  Various Hollywood movies, specially the science fiction films, have used holographic special effects. (eg. Star Wars, Star Trek)  Holograms are also used as promotional tools on records and CD covers.

20  Holographic technique is also used in various medical applications. (eg. CAT scans, X-ray, MRI, Ultrasound)

21  http://science.howstuffworks.com/hologram.htm http://science.howstuffworks.com/hologram.htm  http://www.fact-index.com/h/ho/holography.html http://www.fact-index.com/h/ho/holography.html  http://hyperphysics.phy- astr.gsu.edu/hbase/optmod/holog2.html http://hyperphysics.phy- astr.gsu.edu/hbase/optmod/holog2.html  http://www.holo.com/holo//book/book.html#thholo http://www.holo.com/holo//book/book.html#thholo  http://www.holoworld.com/holo/kids.html http://www.holoworld.com/holo/kids.html  http://www.hololight.net/holography.html http://www.hololight.net/holography.html  http://www.holography.ru/maineng.htm http://www.holography.ru/maineng.htm  http://www.holography.co.uk/questions/holuses.htm http://www.holography.co.uk/questions/holuses.htm  http://www.wikipedia.org http://www.wikipedia.org  http://www.google.com http://www.google.com  http://www.hologramsuppliers.com/holograms- applications.html http://www.hologramsuppliers.com/holograms- applications.html  http://silver.neep.wisc.edu/~lakes/hoAppl.html http://silver.neep.wisc.edu/~lakes/hoAppl.html

22  Any questions?

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