The modulation function and realizing method of holographic functional screen

doi:10.1364/OE.18.027820

The modulation function and realizing method of holographic functional screen

Chongxiu Yu, Jinhui Yuan, Frank C. Fan, C. C. Jiang, Sam Choi, Xinzhu Sang, Chang Lin, and Daxiong Xu »View Author Affiliations

Optics Express, Vol. 18, Issue 26, pp. 27820-27826 (2010)
http://dx.doi.org/10.1364/OE.18.027820

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Abstract

The modulation function of holographic functional screen (HFS) in the real-time, large-size full-color (RLF), three-dimensional (3D) display system is derived from angular spectrum analysis. The directional laser speckle (DLS) method to realize the HFS is proposed. A HFS by the DLS method was fabricated and used in the experiment. Experimental results show that the HFS is valid in the RLF 3D display, and that the derived modulation function is valuable for the design of the HFS. The research results are important to realize the RLF 3D display system which will find many applications such as holographic video.

OCIS Codes
(090.2870) Holography : Holographic display
(110.2990) Imaging systems : Image formation theory
(120.2040) Instrumentation, measurement, and metrology : Displays

ToC Category:
Holography

History
Original Manuscript: October 1, 2010
Revised Manuscript: November 12, 2010
Manuscript Accepted: December 6, 2010
Published: December 17, 2010

Citation
Chongxiu Yu, Jinhui Yuan, Frank C. Fan, C. C. Jiang, Sam Choi, Xinzhu Sang, Chang Lin, and Daxiong Xu, "The modulation function and realizing method of holographic functional screen," Opt. Express 18, 27820-27826 (2010)
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-18-26-27820

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References

S. A. Benton, ed., Selected Papers on Three-Dimensional Displays, SPIE-Int’l Soc. for Optical Eng., 2001.
C. B. Burckhardt and E. T. Doherty, “Beaded plate recording of integral photographs,” Appl. Opt. 8(11), 2329–2331 (1969). [CrossRef] [PubMed]
M. Lucente, “Interactive three-dimensional holographic displays,” Comput. Graph. 31(2), 63–67 (1997). [CrossRef]
L. Huff and R. L. Fusek, “Color holographic stereograms,” Opt. Eng. 19, 691–695 (1980).
D. L. Marks and D. J. Brady, “Three-dimensional source reconstruction with a scanned pinhole camera,” Opt. Lett. 23(11), 820–822 (1998). [CrossRef]
N. T. Shaked and J. Rosen, “Multiple-viewpoint projection holograms synthesized by spatially incoherent correlation with broadband functions,” J. Opt. Soc. Am. A 25(8), 2129–2138 (2008). [CrossRef]
M. L. Huebschman, B. Munjuluri, and H. R. Garner, “Dynamic holographic 3-D image projection,” Opt. Express 11(5), 437–445 (2003). [CrossRef] [PubMed]
http://www.holografika.com/Company/Awards.html
D. Abookasis and J. Rosen, “Computer-generated holograms of three-dimensional objects synthesized from their multiple angular viewpoints,” J. Opt. Soc. Am. A 20(8), 1537–1545 (2003). [CrossRef]
C. W. Slinger, C. D. Cameron, S. D. Coomber, R. J. Miller, D. A. Payne, A. P. Smith, M. G. Smith, M. Stanley, and P. J. Watson, “Recent development in computer generated holography: toward a practical electroholography system for interactive 3D visualization,” Proc. SPIE 5290, 27–41 (2004). [CrossRef]
Zebra Imaging, Inc (http://www. Zebraimaging.com),2008.
M. Alcaraz-Rivera, J. J. Báez-Rojas, and K. Der-Kuan, “Development of a fully functioning digital hologram system,” Proc. SPIE 6912, 69120S (2008). [CrossRef]
V. M. Bove, “Progress in holographic video displays based on guided-wave acousto-optical device” Practical Holography XXII: Materials and Applications, Proc. of SPIE 6912, 69120H–1 (2008).
H. D. Zheng, Y. J. Yu, and C. X. Dai, “A novel three-dimensional holographic display system based on LC-R2500 spatial light modulator,” J. Light Electron. Opt 120(9), 431–436 (2009). [CrossRef]
P. St. Hilaire, S. A. Benton, M. Lucente, J. Underkoffler, and H. Yoshikawa, “Real-time holographic display: Improvements using a multichannel acousto-optic modulator and holographic optical elements”. In Practical Holography V, Proc. SPIE 1461–37, 254–261 (1991).
N. T. Shaked, J. Rosen, and A. Stern, “Integral holography: white-light single-shot hologram acquisition,” Opt. Express 15(9), 5754–5760 (2007). [CrossRef] [PubMed]
M. A. Klug, C. Newswanger, Q. Huang, and E. Holzbach, “Active digital hologram display,” U. S. Patent, PAT6859293, Feb 22, 2005.
S. Tay, P. A. Blanche, R. Voorakaranam, A. V. Tunç, W. Lin, S. Rokutanda, T. Gu, D. Flores, P. Wang, G. Li, P. St Hilaire, J. Thomas, R. A. Norwood, M. Yamamoto, and N. Peyghambarian, “An updatable holographic three-dimensional display,” Nature 451(7179), 694–698 (2008). [CrossRef] [PubMed]
St. Reichelt, H. Sahm, N. Leister, and A. Schwerdtner, “Capability of diffractive optical elements for real-time holographic displays,” Proc. SPIE 6912, 69120P (2008). [CrossRef]
X. Z. Sang, F. C. Fan, C. C. Jiang, S. Choi, W. H. Dou, C. X. Yu, and D. X. Xu, “Demonstration of a large-size real-time full-color three-dimensional display,” Opt. Lett. 34(24), 3803–3805 (2009). [CrossRef] [PubMed]
F. C. Fan, S. Choi, and C. C. Jiang, “Use of spatial spectrum of light to recover three-dimensinal holographic nature,” Appl. Opt. 49(14), 2676–2685 (2010). [CrossRef]
F. C. Fan, and S. Choi, “Equipment and method to make digital speckle hologram,” Chinese patent no. ZL200410022193.7.

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[1] S. A. Benton, ed., Selected Papers on Three-Dimensional Displays, SPIE-Int’l Soc. for Optical Eng., 2001.

[2] C. B. Burckhardt and E. T. Doherty, “Beaded plate recording of integral photographs,” Appl. Opt. 8(11), 2329–2331 (1969). [CrossRef] [PubMed]

[3] M. Lucente, “Interactive three-dimensional holographic displays,” Comput. Graph. 31(2), 63–67 (1997). [CrossRef]

[4] L. Huff and R. L. Fusek, “Color holographic stereograms,” Opt. Eng. 19, 691–695 (1980).

[5] D. L. Marks and D. J. Brady, “Three-dimensional source reconstruction with a scanned pinhole camera,” Opt. Lett. 23(11), 820–822 (1998). [CrossRef]

[6] N. T. Shaked and J. Rosen, “Multiple-viewpoint projection holograms synthesized by spatially incoherent correlation with broadband functions,” J. Opt. Soc. Am. A 25(8), 2129–2138 (2008). [CrossRef]

[7] M. L. Huebschman, B. Munjuluri, and H. R. Garner, “Dynamic holographic 3-D image projection,” Opt. Express 11(5), 437–445 (2003). [CrossRef] [PubMed]

[8] http://www.holografika.com/Company/Awards.html

[9] D. Abookasis and J. Rosen, “Computer-generated holograms of three-dimensional objects synthesized from their multiple angular viewpoints,” J. Opt. Soc. Am. A 20(8), 1537–1545 (2003). [CrossRef]

[10] C. W. Slinger, C. D. Cameron, S. D. Coomber, R. J. Miller, D. A. Payne, A. P. Smith, M. G. Smith, M. Stanley, and P. J. Watson, “Recent development in computer generated holography: toward a practical electroholography system for interactive 3D visualization,” Proc. SPIE 5290, 27–41 (2004). [CrossRef]

[11] Zebra Imaging, Inc (http://www. Zebraimaging.com),2008.

[12] M. Alcaraz-Rivera, J. J. Báez-Rojas, and K. Der-Kuan, “Development of a fully functioning digital hologram system,” Proc. SPIE 6912, 69120S (2008). [CrossRef]

[13] V. M. Bove, “Progress in holographic video displays based on guided-wave acousto-optical device” Practical Holography XXII: Materials and Applications, Proc. of SPIE 6912, 69120H–1 (2008).

[14] H. D. Zheng, Y. J. Yu, and C. X. Dai, “A novel three-dimensional holographic display system based on LC-R2500 spatial light modulator,” J. Light Electron. Opt 120(9), 431–436 (2009). [CrossRef]

[15] P. St. Hilaire, S. A. Benton, M. Lucente, J. Underkoffler, and H. Yoshikawa, “Real-time holographic display: Improvements using a multichannel acousto-optic modulator and holographic optical elements”. In Practical Holography V, Proc. SPIE 1461–37, 254–261 (1991).

[16] N. T. Shaked, J. Rosen, and A. Stern, “Integral holography: white-light single-shot hologram acquisition,” Opt. Express 15(9), 5754–5760 (2007). [CrossRef] [PubMed]

[17] M. A. Klug, C. Newswanger, Q. Huang, and E. Holzbach, “Active digital hologram display,” U. S. Patent, PAT6859293, Feb 22, 2005.

[18] S. Tay, P. A. Blanche, R. Voorakaranam, A. V. Tunç, W. Lin, S. Rokutanda, T. Gu, D. Flores, P. Wang, G. Li, P. St Hilaire, J. Thomas, R. A. Norwood, M. Yamamoto, and N. Peyghambarian, “An updatable holographic three-dimensional display,” Nature 451(7179), 694–698 (2008). [CrossRef] [PubMed]

[19] St. Reichelt, H. Sahm, N. Leister, and A. Schwerdtner, “Capability of diffractive optical elements for real-time holographic displays,” Proc. SPIE 6912, 69120P (2008). [CrossRef]

[20] X. Z. Sang, F. C. Fan, C. C. Jiang, S. Choi, W. H. Dou, C. X. Yu, and D. X. Xu, “Demonstration of a large-size real-time full-color three-dimensional display,” Opt. Lett. 34(24), 3803–3805 (2009). [CrossRef] [PubMed]

[21] F. C. Fan, S. Choi, and C. C. Jiang, “Use of spatial spectrum of light to recover three-dimensinal holographic nature,” Appl. Opt. 49(14), 2676–2685 (2010). [CrossRef]

[22] F. C. Fan, and S. Choi, “Equipment and method to make digital speckle hologram,” Chinese patent no. ZL200410022193.7.

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The modulation function and realizing method of holographic functional screen