论文信息 - Dry photopolymer films for computer-generated infrared radiation focusing elements.

Dry photopolymer films for computer-generated infrared radiation focusing elements.

A new technological approach makes fabrication of relief computer-generated focusing elements for IR radiation by use of a dry photopolymer recording material possible. The formation of a relief structure by self-development takes place in the dark, subsequent to the holographic illumination, without wet processing. Consequently these diffractive elements exhibit low surface scattering. The formation of a surface wave of the monomer along the light-darkness boundary is observed for the first time to our knowledge and confirms the previously proposed thermodynamic model of the mechanism of the hologram formation in photopolymerizable layers. Dye-sensitized polymerization of acrylamide is found to produce nonlinearity of the relief recording. At least partial compensation of this nonlinearity is attained by the introduction of appropriate corrections into the computer-generated amplitude function. A diffraction efficiency of ~ 55% is obtained for CO(2) laser radiation (λ = 10.6 µm).

[1] R A Lessard,et al. Real time bleaching of methylene blue or thionine sensitized gelatin. , 1991, Applied optics.

[2] R. Lessard,et al. Studies of the photoreduction of methylene blue in gelatin solutions and films with a view to improving the holographic recording process at 633 nm , 1991 .

[3] W S Colburn,et al. Volume hologram formation in photopolymer materials. , 1971, Applied optics.

[4] Sergio Calixto,et al. Dry polymer for holographic recording. , 1987, Applied optics.

[5] Yu B Boĭko,et al. Optical recording of periodic structures in photopolymer layers , 1981 .

[6] Daniel-Joseph Lougnot,et al. Shrinkage effects in photopolymerizable resins containing filling agents: Application to stereophotolithography , 1992 .