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Optics Express

Optics Express

  • Editor: Andrew M. Weiner
  • Vol. 22, Iss. 3 — Feb. 10, 2014
  • pp: 2207–2215

The effects of MPE on electro-holographic displays

Jung-Young Son and Manho Jeong  »View Author Affiliations


Optics Express, Vol. 22, Issue 3, pp. 2207-2215 (2014)
http://dx.doi.org/10.1364/OE.22.002207


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Abstract

The effects of MPE (maximum permissible exposure) on the characteristics of electro-holographic displays are analyzed. The main effect is the reduction in the spectral range to be presented by the displays. The range will be reduced more as the pixel and hologram sizes of the displays become smaller and larger, respectively. The spectral range for the hologram size 0.5m and pixel size 0.8µm will be about 50nm less than that of the visible. In addition to the spectral range, the reconstructed image size should not be smaller than the value defined by 0.1 times of the diffracted intensity of the image to meet the MPE requirement for eye.

© 2014 Optical Society of America

OCIS Codes
(090.1760) Holography : Computer holography
(090.2870) Holography : Holographic display
(090.4220) Holography : Multiplex holography
(090.1995) Holography : Digital holography

ToC Category:
Holography

History
Original Manuscript: November 7, 2013
Revised Manuscript: January 13, 2014
Manuscript Accepted: January 15, 2014
Published: January 27, 2014

Citation
Jung-Young Son and Manho Jeong, "The effects of MPE on electro-holographic displays," Opt. Express 22, 2207-2215 (2014)
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-22-3-2207


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References

  1. J.-Y. Son, B. Javidi, “Three-dimensional imaging systems based on multiview images,” J. Disp. Technol. 1(1), 125–140 (2005). [CrossRef]
  2. J.-Y. Son, B. Javidi, K.-D. Kwack, “Methods for displaying 3 dimensional images,” Proc. IEEE 94(3), 502–523 (2006).
  3. F. Yaras, H. Kang, L. Onural, “State of the art in holographic displays: a survey,” J. Disp. Technol. 6(10), 443–454 (2010). [CrossRef]
  4. J. S. Kollin, S. A. Benton, M. I. Jepsen, “Real-time display of 3-D computed hologram by scanning the image of acousto-optic modulator,” Proc. SPIE 1136, 178 (1989).
  5. K. Machida, D. Kato, T. Mishina, H. Kinjo, K. Aoshima, K. Kuga, H. Kikuchi, and N. Shimidzu, “Three-dimensional image reconstruction with a wide viewing-zone-angle using a GMR-based hologram,” in Digital Holography and 3D Imaging Technical Digest, OSA (2013), DTh2A.5.
  6. M. Gower and D. Proch (Eds.), Optical Phase Conjugation (Springer, 1994).
  7. D. C. O’Shea, W. R. Callen, and W. T. Rhodes, An Introduction to Lasers and Their Applications (Addison-Wesley, 1977).
  8. www.psi.manchester.ac.uk
  9. A. Valberg, Light Vision Color (John Wiley, 2005).
  10. J.-Y. Son, B.-R. Lee, O. O. Chernyshov, K.-A. Moon, H. Lee, “Holographic display based on a spatial DMD array,” Opt. Lett. 38(16), 3173–3176 (2013). [CrossRef] [PubMed]
  11. J.-Y. Son, C.-H. Lee, O. O. Chernyshov, B.-R. Lee, S. K. Kim, “A floating type holographic display,” Opt. Express 21(17), 20441–20451 (2013). [CrossRef] [PubMed]
  12. R. J. Collier, C. B. Burckhardt, and L. H. Lin, Optical Holography, Student Edition (Academic, 1971).
  13. F. A. Jenkins and H. E. White, Fundamental of Optics, Korean Student Edition (McGraw- Hill, 1976).
  14. Personal communication with Dr. Dae-Sik Kim of Digital media and communication Div., Samsung Electronics.

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