Abstract

Full-color transmission-type holographic screens for displaying stereoscopic and multiview images suffer color distortions, especially at their edges. These distortions arise because the reconstructed image of the diffuser appears not at a specified location at different locations for different parts of the screen. Analysis shows that the diffuser strip, which is an object that records the screen, should be extended further in the photoplate direction than in the conventional position to remove the distortions and that use of a short-wavelength laser in the blue spectral region, along with extending the diffuser, is recommended for recording large-sized screens. The analysis also allows the largest sizes of screens that can be recorded for a given set of parameters to be calculated. A comparison of the quality of the images displayed on the screens recorded in the conventional position and in the newly developed position has shown distinctive improvements for the new position.

© 2005 Optical Society of America

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References

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  1. V. G. Komar, “Progress on the holographic movie process in the USSR,” in Three-Dimensional Imaging, S. A. Benton, ed., Proc. SPIE120, 127–144 (1977).
    [CrossRef]
  2. Yu. N. Denisyuk, V. V. Orlov, J. B. Brui, “One-dimensional diffuse screen for 3D image projection,” in Practical Holography XII, S. A. Benton, ed., Proc. SPIE3293, 78–82 (1998).
    [CrossRef]
  3. C. Newswanger, “Real-time autostereoscopic displays using holographic diffusers,” U.S. patent4,799,739 (24January, 1989).
  4. V. V. Smirnov, J.-Y. Son, Y.-J. Choi, J.-S. Kim, “An achromatized holographic screen for multiview TV display,” in Practical Holography XIII, S. A. Benton, ed., Proc. SPIE3637, 236–243 (1999).
    [CrossRef]
  5. M. Okamoto, T. Ando, K. Yamasaki, E. Shimizu, “Color control of a hologram image using a single laser under the Bragg condition,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 65–84 (2000).
  6. V. I. Bobrinev, J.-Y. Son, S. A. Shestak, H.-W. Jeon, “The achromatized transmission type holographic screen for stereo imaging and multiview projection,” in Holographic and Diffractive Techniques, G. J. Dausmann, ed., Proc. SPIE2951, 168–172 (1996).
    [CrossRef]
  7. S. H. Hwang, V. I. Bobrinev, J.-Y. Son, H.-W. Jeon, S. A. Shestak, “An achromatized transmission type holographic screen for a multiview stereoscopic image system,” Appl. Opt. 36, 6605–6610 (1997).
    [CrossRef]
  8. N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
    [CrossRef]
  9. J.-S. Kim, V. I. Bobrinev, J.-Y. Son, Y.-J. Choi, S.-H. Shin, “The optimum optical geometry for recording a full color transmission type holographic screen of large size,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 148–157 (2000).
    [CrossRef]
  10. J. C. Whitaker, Electronic Displays, Technology, Design and Applications (McGraw-Hill, New York, 1994).

1997 (1)

Ando, T.

M. Okamoto, T. Ando, K. Yamasaki, E. Shimizu, “Color control of a hologram image using a single laser under the Bragg condition,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 65–84 (2000).

Bobrinev, V. I.

S. H. Hwang, V. I. Bobrinev, J.-Y. Son, H.-W. Jeon, S. A. Shestak, “An achromatized transmission type holographic screen for a multiview stereoscopic image system,” Appl. Opt. 36, 6605–6610 (1997).
[CrossRef]

N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
[CrossRef]

J.-S. Kim, V. I. Bobrinev, J.-Y. Son, Y.-J. Choi, S.-H. Shin, “The optimum optical geometry for recording a full color transmission type holographic screen of large size,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 148–157 (2000).
[CrossRef]

V. I. Bobrinev, J.-Y. Son, S. A. Shestak, H.-W. Jeon, “The achromatized transmission type holographic screen for stereo imaging and multiview projection,” in Holographic and Diffractive Techniques, G. J. Dausmann, ed., Proc. SPIE2951, 168–172 (1996).
[CrossRef]

Brui, J. B.

Yu. N. Denisyuk, V. V. Orlov, J. B. Brui, “One-dimensional diffuse screen for 3D image projection,” in Practical Holography XII, S. A. Benton, ed., Proc. SPIE3293, 78–82 (1998).
[CrossRef]

Choi, Y.-J.

V. V. Smirnov, J.-Y. Son, Y.-J. Choi, J.-S. Kim, “An achromatized holographic screen for multiview TV display,” in Practical Holography XIII, S. A. Benton, ed., Proc. SPIE3637, 236–243 (1999).
[CrossRef]

J.-S. Kim, V. I. Bobrinev, J.-Y. Son, Y.-J. Choi, S.-H. Shin, “The optimum optical geometry for recording a full color transmission type holographic screen of large size,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 148–157 (2000).
[CrossRef]

Denisyuk, Yu. N.

Yu. N. Denisyuk, V. V. Orlov, J. B. Brui, “One-dimensional diffuse screen for 3D image projection,” in Practical Holography XII, S. A. Benton, ed., Proc. SPIE3293, 78–82 (1998).
[CrossRef]

Evtikhiev, N. N.

N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
[CrossRef]

Hwang, S. H.

Jeon, H.-W.

S. H. Hwang, V. I. Bobrinev, J.-Y. Son, H.-W. Jeon, S. A. Shestak, “An achromatized transmission type holographic screen for a multiview stereoscopic image system,” Appl. Opt. 36, 6605–6610 (1997).
[CrossRef]

V. I. Bobrinev, J.-Y. Son, S. A. Shestak, H.-W. Jeon, “The achromatized transmission type holographic screen for stereo imaging and multiview projection,” in Holographic and Diffractive Techniques, G. J. Dausmann, ed., Proc. SPIE2951, 168–172 (1996).
[CrossRef]

Kim, J.-S.

V. V. Smirnov, J.-Y. Son, Y.-J. Choi, J.-S. Kim, “An achromatized holographic screen for multiview TV display,” in Practical Holography XIII, S. A. Benton, ed., Proc. SPIE3637, 236–243 (1999).
[CrossRef]

J.-S. Kim, V. I. Bobrinev, J.-Y. Son, Y.-J. Choi, S.-H. Shin, “The optimum optical geometry for recording a full color transmission type holographic screen of large size,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 148–157 (2000).
[CrossRef]

Komar, V. G.

V. G. Komar, “Progress on the holographic movie process in the USSR,” in Three-Dimensional Imaging, S. A. Benton, ed., Proc. SPIE120, 127–144 (1977).
[CrossRef]

Kostrov, N. A.

N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
[CrossRef]

Newswanger, C.

C. Newswanger, “Real-time autostereoscopic displays using holographic diffusers,” U.S. patent4,799,739 (24January, 1989).

Okamoto, M.

M. Okamoto, T. Ando, K. Yamasaki, E. Shimizu, “Color control of a hologram image using a single laser under the Bragg condition,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 65–84 (2000).

Orlov, V. V.

Yu. N. Denisyuk, V. V. Orlov, J. B. Brui, “One-dimensional diffuse screen for 3D image projection,” in Practical Holography XII, S. A. Benton, ed., Proc. SPIE3293, 78–82 (1998).
[CrossRef]

Radominov, O. E.

N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
[CrossRef]

Shestak, S. A.

S. H. Hwang, V. I. Bobrinev, J.-Y. Son, H.-W. Jeon, S. A. Shestak, “An achromatized transmission type holographic screen for a multiview stereoscopic image system,” Appl. Opt. 36, 6605–6610 (1997).
[CrossRef]

N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
[CrossRef]

V. I. Bobrinev, J.-Y. Son, S. A. Shestak, H.-W. Jeon, “The achromatized transmission type holographic screen for stereo imaging and multiview projection,” in Holographic and Diffractive Techniques, G. J. Dausmann, ed., Proc. SPIE2951, 168–172 (1996).
[CrossRef]

Shimizu, E.

M. Okamoto, T. Ando, K. Yamasaki, E. Shimizu, “Color control of a hologram image using a single laser under the Bragg condition,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 65–84 (2000).

Shin, S.-H.

J.-S. Kim, V. I. Bobrinev, J.-Y. Son, Y.-J. Choi, S.-H. Shin, “The optimum optical geometry for recording a full color transmission type holographic screen of large size,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 148–157 (2000).
[CrossRef]

Smirnov, V. V.

V. V. Smirnov, J.-Y. Son, Y.-J. Choi, J.-S. Kim, “An achromatized holographic screen for multiview TV display,” in Practical Holography XIII, S. A. Benton, ed., Proc. SPIE3637, 236–243 (1999).
[CrossRef]

Son, J.-Y.

S. H. Hwang, V. I. Bobrinev, J.-Y. Son, H.-W. Jeon, S. A. Shestak, “An achromatized transmission type holographic screen for a multiview stereoscopic image system,” Appl. Opt. 36, 6605–6610 (1997).
[CrossRef]

N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
[CrossRef]

J.-S. Kim, V. I. Bobrinev, J.-Y. Son, Y.-J. Choi, S.-H. Shin, “The optimum optical geometry for recording a full color transmission type holographic screen of large size,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 148–157 (2000).
[CrossRef]

V. V. Smirnov, J.-Y. Son, Y.-J. Choi, J.-S. Kim, “An achromatized holographic screen for multiview TV display,” in Practical Holography XIII, S. A. Benton, ed., Proc. SPIE3637, 236–243 (1999).
[CrossRef]

V. I. Bobrinev, J.-Y. Son, S. A. Shestak, H.-W. Jeon, “The achromatized transmission type holographic screen for stereo imaging and multiview projection,” in Holographic and Diffractive Techniques, G. J. Dausmann, ed., Proc. SPIE2951, 168–172 (1996).
[CrossRef]

Whitaker, J. C.

J. C. Whitaker, Electronic Displays, Technology, Design and Applications (McGraw-Hill, New York, 1994).

Yamasaki, K.

M. Okamoto, T. Ando, K. Yamasaki, E. Shimizu, “Color control of a hologram image using a single laser under the Bragg condition,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 65–84 (2000).

Appl. Opt. (1)

Other (9)

N. N. Evtikhiev, V. I. Bobrinev, N. A. Kostrov, O. E. Radominov, S. A. Shestak, J.-Y. Son, “Holographic transmission type screens for projection of stereoscopic or multiview color images,” in Practical Holography XI and Holographic Materials III, S. A. Benton, T. J. Trout, eds., Proc. SPIE3011, 146–155 (1997).
[CrossRef]

J.-S. Kim, V. I. Bobrinev, J.-Y. Son, Y.-J. Choi, S.-H. Shin, “The optimum optical geometry for recording a full color transmission type holographic screen of large size,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 148–157 (2000).
[CrossRef]

J. C. Whitaker, Electronic Displays, Technology, Design and Applications (McGraw-Hill, New York, 1994).

V. G. Komar, “Progress on the holographic movie process in the USSR,” in Three-Dimensional Imaging, S. A. Benton, ed., Proc. SPIE120, 127–144 (1977).
[CrossRef]

Yu. N. Denisyuk, V. V. Orlov, J. B. Brui, “One-dimensional diffuse screen for 3D image projection,” in Practical Holography XII, S. A. Benton, ed., Proc. SPIE3293, 78–82 (1998).
[CrossRef]

C. Newswanger, “Real-time autostereoscopic displays using holographic diffusers,” U.S. patent4,799,739 (24January, 1989).

V. V. Smirnov, J.-Y. Son, Y.-J. Choi, J.-S. Kim, “An achromatized holographic screen for multiview TV display,” in Practical Holography XIII, S. A. Benton, ed., Proc. SPIE3637, 236–243 (1999).
[CrossRef]

M. Okamoto, T. Ando, K. Yamasaki, E. Shimizu, “Color control of a hologram image using a single laser under the Bragg condition,” in Practical Holography XIV and Holographic Materials VI, S. A. Benton, S. H. Stevenson, T. J. Trout, eds., Proc. SPIE3956, 65–84 (2000).

V. I. Bobrinev, J.-Y. Son, S. A. Shestak, H.-W. Jeon, “The achromatized transmission type holographic screen for stereo imaging and multiview projection,” in Holographic and Diffractive Techniques, G. J. Dausmann, ed., Proc. SPIE2951, 168–172 (1996).
[CrossRef]

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Figures (6)

Fig. 1
Fig. 1

Setup for optical recording of a holographic screen.

Fig. 2
Fig. 2

Setup for image projection for a holographic screen.

Fig. 3
Fig. 3

Position of the focused diffuser image as a function of ρ for the nonoptimal screen recording setup.

Fig. 4
Fig. 4

Position of the focused diffuser image as a function of ρ for the optimal screen recording setup.

Fig. 5
Fig. 5

Color distribution in both transverse and longitudinal planes of the viewing zone for two diffuser lengths: viewing zones (a) in the transverse direction for a short diffuser, (b) in the longitudinal direction for a short diffuser, (c) in the transverse direction for a long diffuser, (d) in the longitudinal direction for a long diffuser.

Fig. 6
Fig. 6

Images seen at the viewing zone located at Z4: (a) image displayed on the screen recorded with a short diffuser, (b) image displayed on the screen recorded with a long diffuser.

Tables (1)

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Table 1 Z2 Values as a Function of ρa

Equations (12)

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sin α 2 sin α 1 = λ 1 / d
sin α 3 + sin α 4 = λ 2 d = λ 2 λ 1 ( sin α 2 sin α 1 ) ,
sin α i = ρ ( ρ 2 + Z i 2 ) 1 / 2 ,
Z 4 = { 1 [ λ 2 λ 1 ( 1 Z 2 2 + ρ 2 1 Z 1 2 + ρ 2 ) 1 Z 3 2 + ρ 2 ] 2 ρ 2 } 1 / 2 .
1 Z 4 = λ 2 λ 1 ( 1 Z 2 1 Z 1 ) 1 Z 3 .
2 sin α 3 = ( λ 2 / λ 1 ) ( sin α 2 sin α 1 ) .
ρ max 2 = ( H + b ) 2 + ( m H 2 n ) 2 ,
H max = 2 n ρ max ( 4 n 2 + m 2 ) 1 / 2 = 0.57 n Z 3 ( 4 n 2 + m 2 ) 1 / 2 .
Z 2 = { 1 [ 1 Z 1 2 + ρ 2 + λ 1 λ 2 ( 1 Z 3 2 + ρ 2 + 1 Z 4 2 + ρ 2 ) ] 2 ρ 2 } 1 / 2 .
Z 21 = [ 1 ( 1 Z 1 2 + ρ max 2 + λ 1 λ 2 { 1 ( Z 3 2 + ρ max 2 ) 1 / 2 + 1 [ ( Z 4 a ) 2 + ρ max 2 ] 1 / 2 } ) 2 ρ max 2 ] ,
Z 22 = 1 Z 1 + λ 1 λ 22 ( 1 Z 3 + 1 Z 4 b ) / 1 .
Z 2 Z 1 = ( 1 { λ 1 λ 2 [ 1 ( Z 3 2 Z 1 2 + ρ 2 Z 1 2 ) 1 / 2 + 1 ( Z 4 2 Z 1 2 + ρ 2 Z 1 2 ) 1 / 2 ] + 1 ( 1 + ρ 2 Z 1 2 ) 1 / 2 } 2 ρ 2 Z 1 2 ) 1 / 2 .

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