Holographic Recording Materials

“…The variation of the refractive index in polymers such as PVBT and PST-co-VBT is of potential interest for holographic recordings and the setup of polymer based DFB lasers. resins, [3] the photocrosslinking of gelatine in the presence of dichromates, [3] and oxidative degradation of poly-(methyl methacrylate) [6] are applied to obtain volume gratings in polymer films. UV induced orientational birefringence in liquid crystalline polymers containing azobenzene side-chains is another method for holographic data storage.…”

“…[1,2] Photoreactions are successfully applied to control the solubility, the polarity, the surface energy, and the optical properties of polymers, among them their index of refraction. [3] The variation of the refractive index n of polymers is employed for holographic recordings. [3] As an example, poly(vinyl cinnamate) undergoes a [2 + 2] cycloaddition under UV irradiation (365 nm), which leads to a reduction of the refractive index n D by ca.…”

“…[3] The variation of the refractive index n of polymers is employed for holographic recordings. [3] As an example, poly(vinyl cinnamate) undergoes a [2 + 2] cycloaddition under UV irradiation (365 nm), which leads to a reduction of the refractive index n D by ca. 0.02.…”

Refractive Index Changes in Polymers Induced by Deep UV Irradiation and Subsequent Gas Phase Modification

“…The variation of the refractive index in polymers such as PVBT and PST-co-VBT is of potential interest for holographic recordings and the setup of polymer based DFB lasers. resins, [3] the photocrosslinking of gelatine in the presence of dichromates, [3] and oxidative degradation of poly-(methyl methacrylate) [6] are applied to obtain volume gratings in polymer films. UV induced orientational birefringence in liquid crystalline polymers containing azobenzene side-chains is another method for holographic data storage.…”

“…[1,2] Photoreactions are successfully applied to control the solubility, the polarity, the surface energy, and the optical properties of polymers, among them their index of refraction. [3] The variation of the refractive index n of polymers is employed for holographic recordings. [3] As an example, poly(vinyl cinnamate) undergoes a [2 + 2] cycloaddition under UV irradiation (365 nm), which leads to a reduction of the refractive index n D by ca.…”

“…[3] The variation of the refractive index n of polymers is employed for holographic recordings. [3] As an example, poly(vinyl cinnamate) undergoes a [2 + 2] cycloaddition under UV irradiation (365 nm), which leads to a reduction of the refractive index n D by ca. 0.02.…”

Refractive Index Changes in Polymers Induced by Deep UV Irradiation and Subsequent Gas Phase Modification

“…En los últimos años se han desarrollado diferentes sistemas fotopolimerizables como material de registro holográfico 1 . Estos sistemas poseen características tales como buena sensibilidad espectral y energética, alta resolución, alto rendimiento en difracción, buena relación señal-ruido, estabilidad temporal y procesado en tiempo real.…”

Obtención de una placa fotosensible como material de registro holográfico

“…1 These materials have many characteristics, such as good energetic and spectral sensitivity, high resolution, high diffraction efficiency, temporal stability, and processing in real time, which make them suitable for recording holograms. All these characteristics mean that such materials are useful in applications such as holographic optical storage, production of holographic optical elements, and holographic interferometry.…”

Diffraction efficiency and signal-to-noise ratio of diffuse-object holograms in real time in polyvinyl alcohol photopolymers