Add to ORKGThe Non-local Photo-Polymerization Driven Diffusion (NPDD) model indicates how a material’s performance might be improved, and provides a tool for quantitive comparison of different material compositions and to predict their fundamental limits. In order to reduce the non-locality of polymer chain growth (i.e the non-local response parameter, σ) and to improve the spatial frequency response of a photopolymer material, we introduce the chain transfer agent (CTA). In the literature, extensive studies have been carried out on the improvements of the non-local response modifying by the CTA, sodium formate, in the polyvinyl alcohol-acrylamide (PVA/AA) material. In this article, i) based on the chemical reactions of CTA, we extended the CTA model ...
The photopolymerization diffusion models give accurate comprehension of the mechanism of hologram fo...
An understanding of the photochemical and photo-physical processes, which occur during photopolymer...
The development of suitable recording media for applications such as holographic optical elements a...
The Non-local Photo-Polymerization Driven Diffusion (NPDD) model indicates how a material’s performa...
In part I of this paper the non-local photo-polymerization driven diffusion model was extended to i...
The non-local photopolymerization driven diffusion (NPDD) model predicts that a reduction in the no...
One of the key predictions of the nonlocal photopolymerization driven diffusion (NPDD) model is that...
The Non-local Photo-Polymerization Driven Diffusion (NPDD) model was introduced to describe the obse...
The use of theoretical models to represent the photochemical effects present during the formation of...
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 photo-polymer...
The photopolymerization diffusion models give accurate comprehension of the mechanism of hologram fo...
An understanding of the photochemical and photo-physical processes, which occur during photopolymer...
The development of suitable recording media for applications such as holographic optical elements a...
The Non-local Photo-Polymerization Driven Diffusion (NPDD) model indicates how a material’s performa...
In part I of this paper the non-local photo-polymerization driven diffusion model was extended to i...
The non-local photopolymerization driven diffusion (NPDD) model predicts that a reduction in the no...
One of the key predictions of the nonlocal photopolymerization driven diffusion (NPDD) model is that...
The Non-local Photo-Polymerization Driven Diffusion (NPDD) model was introduced to describe the obse...
The use of theoretical models to represent the photochemical effects present during the formation of...
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 photo-polymer...
The photopolymerization diffusion models give accurate comprehension of the mechanism of hologram fo...
An understanding of the photochemical and photo-physical processes, which occur during photopolymer...
The development of suitable recording media for applications such as holographic optical elements a...