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Polarization holography 1: A new high-efficiency organic material with reversible photoinduced birefringence
827
Citations
9
References
1984
Year
EngineeringOrganic ElectronicsOptical TestingHolographic MethodChemistryDigital HolographyChemical EngineeringNew MaterialOptical PropertiesPhotopolymer NetworkOptical SystemsPolymer ChemistryPhotonicsHigh SensitivityPhotonic MaterialsOrganic SemiconductorPhotochromismReversible Photoinduced BirefringencePolyvinyl AlcoholPolymer ScienceApplied PhysicsConjugated PolymerOptoelectronics
The intrinsic birefringence of methyl orange/PVA layers depends on production and post‑processing conditions. The study reports experimental investigations of a new azo‑dye methyl‑orange/PVA material for polarization holographic recording. The material was fabricated by incorporating azo‑dye methyl‑orange into polyvinyl alcohol and subsequently characterized. The material exhibits high sensitivity and reversibility, with a photoinduced birefringence Δn > 10⁻³, enabling reversible polarization gratings with diffraction efficiency exceeding 30 %.
A new organic material for polarization holographic recording--azo-dye methyl-orange, introduced in polyvinyl alcohol (PVA)--is fabricated and investigated. It possesses all the good characteristics of the known polarization-sensitive materials--high sensitivity, reversibility, etc.--but excels them substantially in the magnitude of the photoinduced birefringence: delta n > 10(-3). This makes possible the recording of reversible polarization gratings with diffraction efficiency over 30%. Depending on the conditions of production and subsequent mechanical and thermal treatments the layers of methyl orange/PVA may also have intrinsic birefringence. In this paper the results of experimental investigations into the properties of this new material are reported.
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