Add to ORKGA holographic characterization technique is developed in accordance with a general photopolymerization model. The technique allows detailed quantification of the chemical parameters, including their variation from the Trommsdorff effect. The holographic procedure is especially suited for studying the diffusion of the chemical reactants
Hologram formation in photopolymers is believed to be largely a result of monomer diffusion. By solv...
Photopolymers are interesting materials for use in recording information in holography. We study the...
The nonlocal polymerization driven diffusion model is used to describe holographic grating formation...
In this chapter we briefly review some of the developments which have been made in the area of photo...
An understanding of the photochemical and photo-physical processes, which occur during photopolymer...
This paper introduces an improved mathematical model for holographic grating formation in an acrylam...
The Non-local Photo-Polymerization Driven Diffusion (NPDD) model was introduced to describe the obse...
The kinetics of photosensitive polymer holographic recording materials are examined assuming a mater...
Diffusion models predict that polymerization and diffusion rates are the key factors that control th...
Photopolymer materials are a practical alternative to high resolution silver halide photographic emu...
One of the main problems involved in the development of holography is that of the recording material...
The photopolymerization diffusion models give accurate comprehension of the mechanism of hologram fo...
The kinetics of photosensitive polymer holographic recording materials are examined assuming a mater...
For photopolymers the compound concentrations and final thickness of the sample should be known in o...
A model is proposed which allows us to obtain the diffraction efficiency of photopolymeric materials...
Hologram formation in photopolymers is believed to be largely a result of monomer diffusion. By solv...
Photopolymers are interesting materials for use in recording information in holography. We study the...
The nonlocal polymerization driven diffusion model is used to describe holographic grating formation...
In this chapter we briefly review some of the developments which have been made in the area of photo...
An understanding of the photochemical and photo-physical processes, which occur during photopolymer...
This paper introduces an improved mathematical model for holographic grating formation in an acrylam...
The Non-local Photo-Polymerization Driven Diffusion (NPDD) model was introduced to describe the obse...
The kinetics of photosensitive polymer holographic recording materials are examined assuming a mater...
Diffusion models predict that polymerization and diffusion rates are the key factors that control th...
Photopolymer materials are a practical alternative to high resolution silver halide photographic emu...
One of the main problems involved in the development of holography is that of the recording material...
The photopolymerization diffusion models give accurate comprehension of the mechanism of hologram fo...
The kinetics of photosensitive polymer holographic recording materials are examined assuming a mater...
For photopolymers the compound concentrations and final thickness of the sample should be known in o...
A model is proposed which allows us to obtain the diffraction efficiency of photopolymeric materials...
Hologram formation in photopolymers is believed to be largely a result of monomer diffusion. By solv...
Photopolymers are interesting materials for use in recording information in holography. We study the...
The nonlocal polymerization driven diffusion model is used to describe holographic grating formation...