DocumentCode
165843
Title
Nano-media: New nano-photofabric for rapid imprinting of color images and covert data storage
Author
Hao Jiang ; Qarehbaghi, Reza ; Kaminska, Bozena
Author_Institution
Sch. of Eng. Sci., Simon Fraser Univ., Burnaby, BC, Canada
fYear
2014
fDate
18-21 Aug. 2014
Firstpage
608
Lastpage
613
Abstract
We present the concept of `nano-media´ as a novel carrier to imprint and display color images with embedded covert information. The key novelty of the proposed nanoscale technology is (1) the introduction of nano-substrate such as polymer (plastic), paper, glass, metal, or other tissue/fabric and (2) the imprinting processes. Nano-substrate consists of the pixelated nano-structures that are specially designed to display red, green and blue primary colors, and infrared radiation, and can be pre-fabricated on any substrate. The imprinting process activates the pixels according to the desired image that is transferred onto nano-substrate. The effective optical intensity of the pixelated nano-structures is tuned by an intensity control layer (ICL), which is patterned according to the desired color image and covert information. Using this technology, any given full-color image and/or covert data can be embedded on a prefabricated nano-substrate. This new technology makes possible to practically and efficiently use the nano-structures as a visual information display (next generation of holography) and as an high density and long term optical storage medium. In this paper, the concept, the design of the nano-media and the proof-of-concept experimental work are presented. We successfully produced full-color images with 1,270 pixels per inch (PPI) resolution using various ICLs on the fabricated nano-substrate. We also embedded covert information into the nano-media by patterning the intensity of infrared sub-pixels and successfully read the information using an infrared camera device. The texts, QR codes and photos were all tested as the covert information which was retrieved without any loss. The color images and stored data are of very high quality that can be controlled by the imprinting processes.
Keywords
cameras; image colour analysis; information retrieval; materials science computing; nanotechnology; optical storage; ICL; PPI; QR codes; QR photos; data storage; fabric; fabricated nanosubstrate; fullcolor images; glass; infrared camera device; intensity control layer; metal; nanomedia; nanophotofabric; nanoscale technology; nanostructures; paper; pixels per inch; plastic; polymer; rapid imprinting processes; tissue; visual information display; Color; Image color analysis; Integrated optics; Metals; Optical device fabrication; Optical imaging; Substrates;
fLanguage
English
Publisher
ieee
Conference_Titel
Nanotechnology (IEEE-NANO), 2014 IEEE 14th International Conference on
Conference_Location
Toronto, ON
Type
conf
DOI
10.1109/NANO.2014.6968172
Filename
6968172
Link To Document