2. Why Holographic Storage?
Storage Density
media stores data in whole volume
Speed
parses many bits at once
Reliability
Good shelf life
High number of write cycles
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3. Outline
Holography Concepts
Refractive index modulation
Storing data
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4. Types of Holograms
Transmission Hologram
Can be used to store data
Uses coherent light
Reflection Hologram
Thekind you find on credit cards
Uses white light
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5. Holography vs Photography
Black and white photograph
Intensity
Color photograph
Intensity and wavelength
Hologram
Intensity, phase, and sometimes wavelength
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12. Photorefractive effect
Electrons gain energy from light
Leave Valence band, can move freely
Diffuse toward dark areas
When beams removed, electrons settle and we
have internal net electric fields
Index of refraction changed due to electro-optic
effect
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13. Intensity Threshold
EConduction
External
electric field
EValence
Object Reference
Image Beam
Object Reference
Image Beam
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16. Current State of Technology
Storage
Transfer rates
CD-ROM: 800 Mbytes – 10 cents
CD-ROM 52x: ~ 5 Mbit/second
DVD+DL: 8.4 Gbytes - $3
DVD 16x: ~ 20 Mbit/s
Blu-Ray DL: 50 Gbyte - $30
InPhase Tapestry: 20 Mbit/sec
InPhase Tapestry: 300 Gbyte - $250
Blu-Ray and HDDVD: ~ 30 Mbit/sec
Hard disk: 1 Tbyte - $300
7200 rpm Hard disk: 80 Mbit/sec
HVD (future): 4 Tbytes
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17. References
Physics for Scientists and Engineers with Modern Physics – Vol 2, Serway and Jewett
International Conference on Holography, Optical Recording, and Processing of
Information: http://spiedl.aip.org/dbt/dbt.jsp?KEY=PSISDG&Volume=6252&Issue=1
Thermally sensitized optical recording in azobenzene polymers
• D.Illieva, M. Ivanon, T. Petrova, V. Dragostinova, G. Minchev, T. Todorov,
L. Nikolova
Refractive data of optical plastics for laser applications
• N. Sultanova, S. Kasarova, C. Ivanov, I. Nikolov
Pulse Recording Dynamics of Diffraction Gratings in Xanthene Dyes Sensitized
Photopolymer Material
• E. Vasilyev, V. Shelkovnikov, E. Pen, A. Plechanov
Holographic recording in nanoparticle-doped photopolymer
• I. Naydenov, H. Sheriff, S. Mintova, S. Toala
http://hyperphysics.phy-astr.gsu.edu/hbase/optmod/holcon.html
http://www.research.ibm.com/journal/rd/443/ashley.html
http://www.howstuffworks.com/holographic-memory.htm
http://en.wikipedia.org/wiki/Holography
http://en.wikipedia.org/wiki/Holographic_Versatile_Disc
http://www.inphasetechnologies.com/downloads/pdf/products/2007TapestryProductBrochur
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18. Image Sources
Slide 2: ad from slashdot.com
Slide 6:
http://sol.sci.uop.edu/~jfalward/lightinterference/lightwaveshowingelecvector.jpg
http://www.chem.wisc.edu/~newtrad/CurrRef/BDGTopic/BDGFigs/3_13cdfere.gif
Slide 7:
http://hyperphysics.phy-astr.gsu.edu/hbase/optmod/imgopm/holo2.gif
Slide 8:
http://hyperphysics.phy-astr.gsu.edu/hbase/optmod/modpic/holripp.jpg
Slide 9:
http://hyperphysics.phy-astr.gsu.edu/hbase/optmod/imgopm/holo3.gif
http://www.research.ibm.com/journal/rd/443/ashle2.gif
Slide 10:
drawn by me
Slide 11:
drawn by me
Slide 13:
taken from Thermally sensitized optical recording in azobenzene polymers, D.Illieva, M. Ivanon, T. Petrova, V.
Dragostinova, G. Minchev, T. Todorov, L. Nikolova
Slide 14:
http://static.howstuffworks.com/gif/holo-memory.gif
Slide 15:
http://static.howstuffworks.com/gif/holo-memory2.gif
Slide 16:
http://www.inphase-technologies.com/images/products/drive-media_lg.jpg
Slide 19:
http://physicsweb.org/objects/world/13/7/7/pw-13-07-07fig4.gif
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