Saturday 23 August 2008



Holograms in your pocket!

One exciting example is the research going on at the Photonics and Sensors Group at the University of Cambridge. Developing breakthrough holographic technologies, which will power a new generation of pocket-sized holographic projectors.

Holographic projections are in fact surprisingly simple, requiring only a few components, which means they can be made very small. In the near future, holo-projectors will be integrated into laptops, PDAs, even mobile phones.

So why has this not been done before?

(1) Holograms are extremely complex objects mathematically, and calculating them fast enough for video applications is very difficult; even the most powerful computers of - in real-time - the past would take minutes to calculate, generate and project even very a simple holographic video frame.

(2) The projected images produced by early holographic technology tended to be speckled and of very low definition quality.

(3) The lasers that are required to illuminate the holograms have, until very recently, been very expensive and limited in availability.

But this is now history.

Several major breakthroughs have been made, together making possible the generation and display of high quality holograms at video frame rates, using just a single custom chip.

So how does it work?

A hologram pattern, which to the naked eye looks like a collection of random dots, is displayed on a small liquid-crystal-on-silicon (LCOS) microdisplay - a tiny, very fast liquid crystal display built on top of a chip.

The hologram patterns are calculated by a custom ‘holo-chip’ so that when the microdisplay is illuminated by laser light, the light interferes with itself in a complex manner through the physical process of diffraction, which when carefully controlled, results in the formation of a large, high quality projected image on, for example, a screen or a wall.

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