Highly concentrated phenanthrenequinone – polymethylmethacrylate composite for thick reflection holograms recording at 532 nm

“…Multiplexed thick reflection holograms in PQ-PMMA composite were recently reported [11]. For a relatively wide range of the recording angles (5 ÷ 15°) an angular selectivity better than 1° could be shown for each of the multiplexed holograms.…”

“…Holographic layers (100 μm thick) were prepared by pouring the liquid solution of PMMA and PQ (3 mol.%) on a glass substrate with subsequent drying. To analyze an ability of the material to record angular multiplexed holograms the Denisyuk experimental set-up was used as described in [11]. Diffracted intensity and angular selectivity curves were measured at λ = 532 nm laser irradiation, which is in the absorption band of PQ-PMMA material (from UV up to 540 nm [11]).…”

“…These highly-concentrated PQ-PMMA layers with 100 μm thickness have demonstrated the effective recording of transmission and reflection holograms [8,9] as well as the formation of the waveguiding structures [10] exposing with an Argon laser (at 488 and 514.5 nm). Recently we discussed in details the formation of stable phase reflection holograms in highly-concentrated PQ-PMMA layers [11]. Three main stages were included: 1) holographic recording by exposing with the interfering light; 2) thermal treatment to increase the diffraction efficiency; and 3) uniform light treatment, to make the hologram insensitive to further light exposure.…”

Multiplexed holograms in phenanthrenequinone–polymethylmethacrylate composite for microscopic applications

“…Multiplexed thick reflection holograms in PQ-PMMA composite were recently reported [11]. For a relatively wide range of the recording angles (5 ÷ 15°) an angular selectivity better than 1° could be shown for each of the multiplexed holograms.…”

“…Holographic layers (100 μm thick) were prepared by pouring the liquid solution of PMMA and PQ (3 mol.%) on a glass substrate with subsequent drying. To analyze an ability of the material to record angular multiplexed holograms the Denisyuk experimental set-up was used as described in [11]. Diffracted intensity and angular selectivity curves were measured at λ = 532 nm laser irradiation, which is in the absorption band of PQ-PMMA material (from UV up to 540 nm [11]).…”

“…These highly-concentrated PQ-PMMA layers with 100 μm thickness have demonstrated the effective recording of transmission and reflection holograms [8,9] as well as the formation of the waveguiding structures [10] exposing with an Argon laser (at 488 and 514.5 nm). Recently we discussed in details the formation of stable phase reflection holograms in highly-concentrated PQ-PMMA layers [11]. Three main stages were included: 1) holographic recording by exposing with the interfering light; 2) thermal treatment to increase the diffraction efficiency; and 3) uniform light treatment, to make the hologram insensitive to further light exposure.…”

Multiplexed holograms in phenanthrenequinone–polymethylmethacrylate composite for microscopic applications

“…Before the illumination, PQ molecules with different orientations were randomly distributed in the material. When the material is exposed by a linearly polarized wave, dependent on the polarization state, PQ molecules with a certain orientation have a greater chance of reacting with monomers on certain regions [5,19]. The orientation of the PQ molecules that was parallel to the illuminated wave polarization state had a greater chance of reacting.…”

“…PQ/PMMA (phenanthrenequinone-doped poly(methyl methacrylate)) photopolymer has polarization sensitivity, controllable thickness, good optical quality, and low shrinkage (contraction coefficient < 10 −5 ), all of which make it suitable as a holographic storage material for multidimensional storage [2][3][4]. However, due to the low PQ saturation concentration dissolved in MMA and to the poor photosensitivity associated with a limited quantum of PQ molecular reactions [5], PQ/PMMA is unsatisfactory regarding diffraction efficiency and polarization sensitivity.…”

SiO2 NPs-PQ/PMMA Photopolymer Material Doped with a High-Concentration Photosensitizer for Holographic Storage

Materials