Scientists have created a
glasses-free, 3D display that could mimic the famous hologram projection of
Princess Leia in the original 1977 Star Wars film.
The display is small and light
enough to work on mobile phones, and produces images that appear in 3D even
when viewed from different angles, the scientists said.
To make the device, researchers
at Hewlett-Packard Labs in Palo Alto, California, built a transparent screen
with tiny light emitting diodes (LEDs) around the edges. Light rays sent
towards the centre encounter pixels that steer the light out of the screen in
different directions.
Through careful control of the
light, the device sends slightly different images to each eye, which are
combined in the brain into a 3D object.
A
prototype of the device, described in
the journal Nature, can send light in 14 different directions, which
is too few to give a smooth 3D effect. For that, the researchers are developing
a more sophisticated device that sends light out in 64 different directions.
"In
principle you would be able to move your head around the display, rotate your
head in any direction, and still see a 3D image, much like what you see in Star
Wars, with the famous hologram of Princess Leia," said David Fattal,
who helped to create the device.
"If you were to display a
3D image of planet Earth with the north pole facing out of the screen, by
turning your head around the display you'd be able to have a view of any
country on the globe," he added.
Another
HP researcher, Raymond Beausoleil, said the technology might
first be used for low-cost 3D signs. "Perhaps in the not so distant
future, it could make its way to smartphones, smart watches and tablets,"
he added.
In an
accompanying article, Neil Dodgson,
professor of graphics and imaging at Cambridge University's Computer
Laboratory, said major challenges must be overcome before hologram-like
displays are a reality on mobile devices. Key among these are whether the 3D
effect comes at the expense of resolution and image quality.
"The examples given in the
paper show that there is considerable work to be done to improve the quality to
an acceptable level," he wrote.
Perfecting the displays and
their manufacture could take a long time, Dodgson warns. "I am reminded of
the nine-year development of Texas Instruments' digital micro-mirror device,
now widely used in digital projectors, between the invention in 1987 and the
first commercial product in 1996," he added.
Source: www.theguardian.co.uk
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