"Acrylamide Based Photopolymers for Different Holographic Applications"@en . "Acrylamide Based Photopolymers for Different Holographic Applications" . . "Acrylamide Based Photopolymers for Different Holographic Applications" . "RIV/68407700:21340/07:00138918" . . . "Acrylamide Based Photopolymers for Different Holographic Applications"@en . "Kv\u011Bto\u0148, Milan" . "408445" . . "Richter, Ivan" . . . . . . "Akademie v\u011Bd \u010Cesk\u00E9 republiky" . . . . "2"^^ . . "RIV/68407700:21340/07:00138918!RIV11-MSM-21340___" . . "P(1H-PK/02), P(IAA100100718), Z(MSM6840770022)" . "21340" . . . . . "Photopolymer holographic recording materials are attractive media for many applications. Photopolymers differ from conventional recording materials in their self-developing characteristics. The material is composed of common organic compounds and its preparation is simple. Hence the composition can be varied easily to adjust properties for each specific application. The spectral sensitivity, thickness of the layer, resolution, refractive index, or stability can be set in this way. In our laboratory the acrylamide based photopolymer is prepared and tested. A method of real-time measurement is used for determination of material characteristics and their optimization. The material is exposed with interference field and the diffraction efficiency is continuously measured. The grow-curves of refractive index change are obtained and analyzed for determination of material characteristics." . "[007D2057202F]" . . . . "Photopolymer holographic recording materials are attractive media for many applications. Photopolymers differ from conventional recording materials in their self-developing characteristics. The material is composed of common organic compounds and its preparation is simple. Hence the composition can be varied easily to adjust properties for each specific application. The spectral sensitivity, thickness of the layer, resolution, refractive index, or stability can be set in this way. In our laboratory the acrylamide based photopolymer is prepared and tested. A method of real-time measurement is used for determination of material characteristics and their optimization. The material is exposed with interference field and the diffraction efficiency is continuously measured. The grow-curves of refractive index change are obtained and analyzed for determination of material characteristics."@en . "Advanced polymer materials for photonics and electronics" . "Praha" . "Praha" . . "4"^^ . "2007-07-15+02:00"^^ . "978-80-85009-56-9" . "Fiala, Pavel" . "networking; permanent record formation; photopolymer recording material; polymer holography; polymerization; self-developing material"@en . "Havr\u00E1nek, A." . "3"^^ . . .