Abstract

This paper discusses the principle of the diffusion development of photoinduced (holographic) gratings with the use of photoattached molecules and its use in creating shrink-resistant photosensitive media for volume holography and in studying polymeric materials by a holographic relaxation method. It discusses how the composition, the fabrication method, and the thermal history of the medium affect its properties. It is shown that polymeric photosensitive materials with diffusion amplification fabricated by polymerization methods in mass differ from those made by casting a film from a solution.

© 2008 Optical Society of America

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  1. J. E. Boyd, T. J. Trentler, R. K. Wahi, Y. I. Vega-Cantu, and V. L. Colvin, “Effect of film thickness on the performance of photopolymers as holographic recording materials,” Appl. Opt. 39, 2353 (2000).
  2. S.-D. Wu and E. N. Glytsis, “Characteristics of DuPont photopolymers for slanted holographic grating formations,” J. Opt. Soc. Am. B 21, 1722 (2004).
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  3. L. Dhar, A. Hale, H. E. Katz, M. L. Schilling, M. G. Schnoes, and F. C. Schilling, “Recording media that exhibit high dynamic range for digital holographic data storage,” Opt. Lett. 24, 487 (1999).
  4. G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].
  5. A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].
  6. C. S. Johnson, Jr, “Structural and dynamic origins of intensity in holographic relaxation spectroscopy,” J. Opt. Soc. Am. B 2, 317 (1985).
  7. L. S. Lever, M. S. Bradley, and C. S. Johnson, Jr., “Comparison of pulsed field gradient NMR and holographic relaxation spectroscopy in the study of diffusion of photochromic molecules,” J. Magn. Reson. (1969-1992) 68, 335 (1986).
  8. A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].
  9. A. V. Veniaminov and H. Sillescu, “Polymer and dye probe diffusion in poly(methyl methacrylate) below the glass transition studied by forced Rayleigh scattering,” Macromolecules 32, 1828 (1999).
    [CrossRef]
  10. A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).
  11. S. Yiou, F. Balembois, P. Georges, and J.-P. Huignard, “Improvement of the spatial beam quality of laser sources with an intracavity Bragg grating,” Opt. Lett. 28, 242 (2003).
  12. J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).
  13. A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).
  14. U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
    [CrossRef]
  15. G. I. Lashkov, “Physical chemistry of polymers in the development of recording media,” Usp. Nauchn. Fotogr. 19, 100 (1978).
  16. A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].
  17. N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].
  18. J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).
  19. J. Mumbru, “Optoelectronic circuits using holographic elements,” Ph. D. thesis, California Institute of Technology, Pasadena, 2002.
  20. K. Y. Hsu, S. H. Lin, Y. N. Hsiao, and W. T. Whang, “Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage,” Opt. Eng. (Bellingham) 42, 1390 (2003).
    [CrossRef]
  21. A. Veniaminov and E. Bartsch, “Diffusional enhancement of holograms: phenanthrenequinone in polycarbonate,” J. Opt. Soc. Am. A 4, 387 (2002).
  22. Y. Koike, N. Tanio, and Y. Ohtsuka, “Light scattering and heterogeneities in low-loss PMMA glasses,” Macromolecules 22, 1367 (1989).
    [CrossRef]

2006 (2)

J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

2004 (1)

2003 (2)

S. Yiou, F. Balembois, P. Georges, and J.-P. Huignard, “Improvement of the spatial beam quality of laser sources with an intracavity Bragg grating,” Opt. Lett. 28, 242 (2003).

K. Y. Hsu, S. H. Lin, Y. N. Hsiao, and W. T. Whang, “Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage,” Opt. Eng. (Bellingham) 42, 1390 (2003).
[CrossRef]

2002 (2)

A. Veniaminov and E. Bartsch, “Diffusional enhancement of holograms: phenanthrenequinone in polycarbonate,” J. Opt. Soc. Am. A 4, 387 (2002).

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

2000 (3)

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

J. E. Boyd, T. J. Trentler, R. K. Wahi, Y. I. Vega-Cantu, and V. L. Colvin, “Effect of film thickness on the performance of photopolymers as holographic recording materials,” Appl. Opt. 39, 2353 (2000).

1999 (2)

A. V. Veniaminov and H. Sillescu, “Polymer and dye probe diffusion in poly(methyl methacrylate) below the glass transition studied by forced Rayleigh scattering,” Macromolecules 32, 1828 (1999).
[CrossRef]

L. Dhar, A. Hale, H. E. Katz, M. L. Schilling, M. G. Schnoes, and F. C. Schilling, “Recording media that exhibit high dynamic range for digital holographic data storage,” Opt. Lett. 24, 487 (1999).

1996 (1)

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

1991 (2)

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

1989 (1)

Y. Koike, N. Tanio, and Y. Ohtsuka, “Light scattering and heterogeneities in low-loss PMMA glasses,” Macromolecules 22, 1367 (1989).
[CrossRef]

1986 (2)

L. S. Lever, M. S. Bradley, and C. S. Johnson, Jr., “Comparison of pulsed field gradient NMR and holographic relaxation spectroscopy in the study of diffusion of photochromic molecules,” J. Magn. Reson. (1969-1992) 68, 335 (1986).

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

1985 (1)

1978 (2)

G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].

G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].

G. I. Lashkov, “Physical chemistry of polymers in the development of recording media,” Usp. Nauchn. Fotogr. 19, 100 (1978).

Andreeva, O. V.

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

Ashcheulov, Y.

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

Ashley, J.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Balembois, F.

Bandyuk, O. V.

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

Bartsch, E.

A. Veniaminov and E. Bartsch, “Diffusional enhancement of holograms: phenanthrenequinone in polycarbonate,” J. Opt. Soc. Am. A 4, 387 (2002).

Bernal, M. P.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Boyd, J. E.

Bradley, M. S.

L. S. Lever, M. S. Bradley, and C. S. Johnson, Jr., “Comparison of pulsed field gradient NMR and holographic relaxation spectroscopy in the study of diffusion of photochromic molecules,” J. Magn. Reson. (1969-1992) 68, 335 (1986).

Burr, G. W.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Colvin, V. L.

Coufal, H.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Dhar, L.

Georges, P.

Glytsis, E. N.

Goncharov, V. F.

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

Guenther, H.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Hale, A.

Heifetz, A.

J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).

Hoffnagle, J. A.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Hsiao, Y. N.

K. Y. Hsu, S. H. Lin, Y. N. Hsiao, and W. T. Whang, “Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage,” Opt. Eng. (Bellingham) 42, 1390 (2003).
[CrossRef]

Hsu, K. Y.

K. Y. Hsu, S. H. Lin, Y. N. Hsiao, and W. T. Whang, “Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage,” Opt. Eng. (Bellingham) 42, 1390 (2003).
[CrossRef]

Huignard, J.-P.

Ionina, N. V.

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

Jefferson, C. M.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Johnson, C. S.

L. S. Lever, M. S. Bradley, and C. S. Johnson, Jr., “Comparison of pulsed field gradient NMR and holographic relaxation spectroscopy in the study of diffusion of photochromic molecules,” J. Magn. Reson. (1969-1992) 68, 335 (1986).

C. S. Johnson, Jr, “Structural and dynamic origins of intensity in holographic relaxation spectroscopy,” J. Opt. Soc. Am. B 2, 317 (1985).

Katz, H. E.

Koike, Y.

Y. Koike, N. Tanio, and Y. Ohtsuka, “Light scattering and heterogeneities in low-loss PMMA glasses,” Macromolecules 22, 1367 (1989).
[CrossRef]

Kowarschik, R.

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

Lapushka, K.

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

Lashkov, G. I.

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].

G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].

G. I. Lashkov, “Physical chemistry of polymers in the development of recording media,” Usp. Nauchn. Fotogr. 19, 100 (1978).

Lee, J.-K.

J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).

Lever, L. S.

L. S. Lever, M. S. Bradley, and C. S. Johnson, Jr., “Comparison of pulsed field gradient NMR and holographic relaxation spectroscopy in the study of diffusion of photochromic molecules,” J. Magn. Reson. (1969-1992) 68, 335 (1986).

Lin, S. H.

K. Y. Hsu, S. H. Lin, Y. N. Hsiao, and W. T. Whang, “Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage,” Opt. Eng. (Bellingham) 42, 1390 (2003).
[CrossRef]

Macfarlane, R. M.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Mahilny, U. V.

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

Marcus, B.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Marmysh, D. N.

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

Matusevich, V.

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

Mumbru, J.

J. Mumbru, “Optoelectronic circuits using holographic elements,” Ph. D. thesis, California Institute of Technology, Pasadena, 2002.

Novikov, I.

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

Ohtsuka, Y.

Y. Koike, N. Tanio, and Y. Ohtsuka, “Light scattering and heterogeneities in low-loss PMMA glasses,” Macromolecules 22, 1367 (1989).
[CrossRef]

Paramonov, A. A.

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

Ponosov, Y.

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

Popov, A.

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

Popov, A. P.

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

Ratner, O. B.

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

Schilling, F. C.

Schilling, M. L.

Schnoes, M. G.

Sedunov, N.

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

Shahriar, M. S.

J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).

Shelby, R. M.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Shelekhov, N. S.

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

Shen, J. T.

J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).

Sillescu, H.

A. V. Veniaminov and H. Sillescu, “Polymer and dye probe diffusion in poly(methyl methacrylate) below the glass transition studied by forced Rayleigh scattering,” Macromolecules 32, 1828 (1999).
[CrossRef]

Sincerbox, G. T.

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

Stankevich, A. I.

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

Sukhanov, V. I.

G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].

G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].

Tanio, N.

Y. Koike, N. Tanio, and Y. Ohtsuka, “Light scattering and heterogeneities in low-loss PMMA glasses,” Macromolecules 22, 1367 (1989).
[CrossRef]

Tolstik, A. L.

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

Trentler, T. J.

Tripathi, R.

J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).

Vega-Cantu, Y. I.

Veniaminov, A.

A. Veniaminov and E. Bartsch, “Diffusional enhancement of holograms: phenanthrenequinone in polycarbonate,” J. Opt. Soc. Am. A 4, 387 (2002).

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

Veniaminov, A. V.

A. V. Veniaminov and H. Sillescu, “Polymer and dye probe diffusion in poly(methyl methacrylate) below the glass transition studied by forced Rayleigh scattering,” Macromolecules 32, 1828 (1999).
[CrossRef]

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

Wahi, R. K.

Whang, W. T.

K. Y. Hsu, S. H. Lin, Y. N. Hsiao, and W. T. Whang, “Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage,” Opt. Eng. (Bellingham) 42, 1390 (2003).
[CrossRef]

Wu, S.-D.

Yiou, S.

Zyuzin, I.

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

Appl. Opt. (1)

Appl. Phys. B (1)

U. V. Mahilny, D. N. Marmysh, A. I. Stankevich, A. L. Tolstik, V. Matusevich, and R. Kowarschik, “Holographic volume gratings in a glass-like polymer material,” Appl. Phys. B 82, 299 (2006).
[CrossRef]

IBM J. Res. Dev. (1)

J. Ashley, M. P. Bernal, G. W. Burr, H. Coufal, H. Guenther, J. A. Hoffnagle, C. M. Jefferson, B. Marcus, R. M. Macfarlane, R. M. Shelby, and G. T. Sincerbox, “Holographic data storage,” IBM J. Res. Dev. 44, 341 (2000).

J. Magn. Reson. (1969-1992) (1)

L. S. Lever, M. S. Bradley, and C. S. Johnson, Jr., “Comparison of pulsed field gradient NMR and holographic relaxation spectroscopy in the study of diffusion of photochromic molecules,” J. Magn. Reson. (1969-1992) 68, 335 (1986).

J. Opt. Soc. Am. A (2)

A. Popov, I. Novikov, K. Lapushka, I. Zyuzin, Y. Ponosov, Y. Ashcheulov, and A. Veniaminov, “Spectrally selective holographic optical elements based on a thick polymer medium with diffusional amplification,” J. Opt. Soc. Am. A 2, 494 (2000).

A. Veniaminov and E. Bartsch, “Diffusional enhancement of holograms: phenanthrenequinone in polycarbonate,” J. Opt. Soc. Am. A 4, 387 (2002).

J. Opt. Soc. Am. B (2)

Macromolecules (2)

A. V. Veniaminov and H. Sillescu, “Polymer and dye probe diffusion in poly(methyl methacrylate) below the glass transition studied by forced Rayleigh scattering,” Macromolecules 32, 1828 (1999).
[CrossRef]

Y. Koike, N. Tanio, and Y. Ohtsuka, “Light scattering and heterogeneities in low-loss PMMA glasses,” Macromolecules 22, 1367 (1989).
[CrossRef]

Opt. Commun. (1)

J.-K. Lee, J. T. Shen, A. Heifetz, R. Tripathi, and M. S. Shahriar, “Demonstration of a thick holographic Stokesmeter,” Opt. Commun. 259, 484 (2006).

Opt. Eng. (Bellingham) (1)

K. Y. Hsu, S. H. Lin, Y. N. Hsiao, and W. T. Whang, “Experimental characterization of phenanthrenequinone-doped poly(methyl methacrylate) photopolymer for volume holographic storage,” Opt. Eng. (Bellingham) 42, 1390 (2003).
[CrossRef]

Opt. Lett. (2)

Opt. Spectrosc. (1)

A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,” Opt. Spectrosc. 71, 507 (1991) A. P. Popov, N. Sedunov, and A. V. Veniaminov, “Apodization of volume holograms by the diffusion of organic molecules in a polymer,”Opt. Spectrosc. 71, 295 (1991).

Opt. Spektrosk. (4)

A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules,” Opt. Spektrosk. 81, 676 (1996) A. V. Veniaminov, N. Sedunov, A. P. Popov, and O. V. Bandyuk, “Postexposure behavior of holograms under the action of the diffusion of macromolecules, [Opt. Spectrosc. 81, 617 (1996)].

G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photorefraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” Opt. Spektrosk. 44, 1008 (1978) G. I. Lashkov and V. I. Sukhanov, “Using the dispersion photo refraction caused by processes with the participation of triplet states to record three-dimensional phase holograms,” [Opt. Spectrosc. 44, 590 (1978)].

A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” Opt. Spektrosk. 60, 142 (1986) A. V. Veniaminov, G. I. Lashkov, O. B. Ratner, N. S. Shelekhov, and O. V. Bandyuk, “Holographic relaxometry as a method of studying diffusion processes in polymeric recording media,” [Opt. Spectrosc. 60, 87 (1986)].

A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” Opt. Spektrosk. 70, 864 (1991) A. V. Veniaminov, V. F. Goncharov, and A. P. Popov, “Hologram amplification by diffusion destruction of out-of-phase periodic structures,” [Opt. Spectrosc. 70, 505 (USSR) (1991)].

Opt. Zh. (1)

N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002) N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of polymeric recording medium are associated with their hardness,” [J. Opt. Technol. 69, 403 (2002)].

Usp. Nauchn. Fotogr. (1)

G. I. Lashkov, “Physical chemistry of polymers in the development of recording media,” Usp. Nauchn. Fotogr. 19, 100 (1978).

Other (1)

J. Mumbru, “Optoelectronic circuits using holographic elements,” Ph. D. thesis, California Institute of Technology, Pasadena, 2002.

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