Image Stability and Performance of a New Silver Halide Color Paper for Digital Printers: Crystal Archive Paper type One
Abstract:FUJICOLOR CRYSTAL ARCHIVE PAPER TYPE ONE is a silver halide color paper designed for digital printers, and is capable of yielding high-image-quality digital prints, especially when it is used with the Digital Minilab Frontier. This color paper allows the attainments of enhanced suitability to high-intensity laser exposure, excellent image stability, brilliant whiteness, and consistent processing result. These features were brought about by the following technologies.
(1) APC (Advanced Photoelectron Controlling) Technology
This technology is to control the behavior of photoelectrons created by high-intensity laser exposure in order to provide high-image-quality digital prints without deterioration of latent image stability by enhancing the concentration of latent image formation.
(2) HDS (Hybrid Dye-image Stability) Technology
This technology enhances the stability of the anti-fading agent to produce unparalleled image permanence.
(3) WE (Whiteness Enhancing) Technology and RR (Resistance to Radiation) Technology
The development of WE technology brings about brilliant whites by retarding the formation of residual dyes during processing. This technology also provides brilliant whites, which do not change among batches by suppressing fog formation due to environmental radiation.
(4) PS (Process Stabilizing) Technology
This technology depends on new chemical sensitization technology, which makes it possible to achieve the required level of sensitivity with smaller silver halide grains than before, and provides more consistent results with faster rate of development than before even when exhausted solutions are used.
Document Type: Research Article
Publication date: January 1, 2002
For more than 25 years, NIP has been the leading forum for discussion of advances and new directions in non-impact and digital printing technologies. A comprehensive, industry-wide conference, this meeting includes all aspects of the hardware, materials, software, images, and applications associated with digital printing systems, including drop-on-demand ink jet, wide format ink jet, desktop and continuous ink jet, toner-based electrophotographic printers, production digital printing systems, and thermal printing systems, as well as the engineering capability, optimization, and science involved in these fields.
Since 2005, NIP has been held in conjunction with the Digital Fabrication Conference.
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