"3"^^ . . . . "I, P(KAN401220801)" . "diffraction grating; recording materials; photopolymer"@en . . "http://www.epj-conferences.org/articles/epjconf/pdf/2013/09/epjconf_OAM2012_00013.pdf" . . . "Real-time measurements of diffraction grating growth in photopolymer recording materials" . "21340" . "RIV/68407700:21340/13:00215787" . "000326985500012" . "\u0160kere\u0148, Marek" . "10.1051/epjconf/20134800013" . . . . "48" . . . . "FR - Francouzsk\u00E1 republika" . . . . "\u0160kere\u0148, Marek" . "4"^^ . . . "Fiala, Pavel" . "RIV/68407700:21340/13:00215787!RIV14-MSM-21340___" . "Real-time measurements of diffraction grating growth in photopolymer recording materials"@en . "101638" . "Real-time measurements of diffraction grating growth in photopolymer recording materials"@en . "[137CE77A9471]" . . "Kv\u011Bto\u0148, Milan" . "Havranek, A." . "Self-developing ability of photopolymer recording material enables measurements of growth of a refractive index grating in the real-time during a holographic exposure. In our laboratory, we prepare thin layers of photopolymer recording materials and measure their response on harmonic interference field. The results of the measurements are used for characterization of the recording process running in photopolymers and optimization of their chemical composition. Recently, the detection setup has been adapted to measure the phase shift between the recording interference field and the refractive index grating simultaneously with the grow-curves. The phase shift measurement is especially important in the case of photopolymers with nanoparticles as they are spatially redistributed within the layer during the holographic exposure. In the paper, we introduce the principles of the measurement technique, describe our exposure and detection setup, analyze the grow-curve, and show some results obtained from our measurements of the newly developed photopolymer with AgBr nanoparticles." . "48" . "Real-time measurements of diffraction grating growth in photopolymer recording materials" . "EPJ Web of Conferences" . "Self-developing ability of photopolymer recording material enables measurements of growth of a refractive index grating in the real-time during a holographic exposure. In our laboratory, we prepare thin layers of photopolymer recording materials and measure their response on harmonic interference field. The results of the measurements are used for characterization of the recording process running in photopolymers and optimization of their chemical composition. Recently, the detection setup has been adapted to measure the phase shift between the recording interference field and the refractive index grating simultaneously with the grow-curves. The phase shift measurement is especially important in the case of photopolymers with nanoparticles as they are spatially redistributed within the layer during the holographic exposure. In the paper, we introduce the principles of the measurement technique, describe our exposure and detection setup, analyze the grow-curve, and show some results obtained from our measurements of the newly developed photopolymer with AgBr nanoparticles."@en . "4"^^ . "2100-014X" .