Title :
Microholographic storage in photopolymers
Author :
Orlic, Susanna ; Mueller, Christian ; Reinicke, Andreas ; Schoen, Ruediger ; Trefzer, Martin ; Eichler, Hans J.
Author_Institution :
Opt. Inst., Technische Univ. Berlin, Germany
Abstract :
A novel approach to 3D optical information storage based on writing and reading of microscopic holographic gratings in a photopolymer layer is investigated. The reflection gratings created by a highly focused laser beam can be used to replace the pit-land structure in a disk-based optical storage system. The modulation range of such 3D microgratings is clearly localized to the focal region of a focused write beam. Holographic recording allows for use of various multiplexing methods. To achieve storage densities higher than are currently available, we propose a combination of wavelength multiplexing and multilayer storage. Multiwavelength recording in DuPont HRF polymers as well as multilayer storage in thick samples of Aprilis CROP photopolymers are reported.
Keywords :
Bragg gratings; holographic gratings; holographic storage; micro-optics; optical focusing; optical modulation; optical polymers; polymer films; wavelength division multiplexing; 3D micrograting modulation range; 3D optical information storage; Aprilis CROP photopolymers; DuPont HRF polymers; disk-based optical storage system; focused laser beam; focused write beam focal region; holographic recording; microholographic storage; microscopic holographic gratings; multilayer storage; multiwavelength recording; photopolymers; pit-land structure replacement; reflection gratings; storage density; wavelength multiplexing; Gratings; Holographic optical components; Holography; Laser beams; Nonhomogeneous media; Optical microscopy; Optical modulation; Optical recording; Optical reflection; Writing;
Conference_Titel :
Optical Memory and Optical Data Storage Topical Meeting, 2002. International Symposium on
Print_ISBN :
0-7803-7379-0
DOI :
10.1109/OMODS.2002.1028624
