holographic technology and microelectronics

The field of holotechnology applied science has pioneered opportunities for new optical storage methods that save information throughout the thickness of recordable media, not just spread over their surface area. Holographic data storage is also different from conventional data storage in that an entire page of information is saved in an instant, rather than saving data as a linear sequence of specific bits. Before the introduction of holographic applied science, micro-electronics had been predominantly 2D by design. Holographic applied science is growing microphotonics and microelectronics three-dimensionally. This expansion will open doors for the formation of super-dense databases, parallel-search processing, and photonic computer circuits etched in three-dimensional photosensitive volumes. The site on Integraf: Holographic Film, Plates and Resources has different information.

CD and DVD science and equipment have constraints. The density of storage on the top of data media is approaching a fundamental physical limit. Holographic information storage is a ground-breaking means of data coding and factor processing. Holographic data storage can save information, a megabyte at a time, by storing a whole page of information at once throughout the detail of the storage media. When one shines a reference beam with the same wave phase and at the same angle used to record the holographic picture in the recordable media, then the hologram encoded in the media diffracts the ray and restores the original data beam. This beam is then translated into electronic signals for computer operating. Wavelength manyxing makes it possible for many pictures to be saved and restored from the same media by changing the wave phase of the reference laser ray. Sub-page Top Virtual Tours reports more developments.

Also consider Holographic Computers for more about holotechnology.