Nanotech Researchers Create 'Fifth Dimension' Data Storage
A team of researchers from an Australian university has developed a new DVD technology that could someday boost disc capacity by 10,000 times beyond today's standard 4.7GB DVDs, according to a study published in the Nature journal.
To quote: Researchers from Swinburne University of Technology, in Melbourne, said the technology, dubbed Multiplexed optical recording, can create a "fifth dimension" of recording using polarization and gold nanorods to reflect light, boosting data density beyond 1012 bits per centimeter.
The team was able to store 1.6TB of data on a disk with the technology, and said that someday the technique could yield up to 10TB on a single DVD-type disk.
"We were able to show how nanostructured material can be incorporated onto a disc in order to increase data capacity without increasing the physical size of the disc," said professor Min Gu, one of the three researchers who co-authored the paper on the technology.
The most highly advanced optical storage platters today use three-dimensional technology, where bits burned into the substrate material can be read both on the surface as well as throughout the platter.
Three-dimensional technology uses a single color laser beam or light wavelength to read the data in the form of bits on a platter. By using nanotechnology in the form of small gold rods that reflect light, the researchers from Swinburne University, were able to create a spectral or color dimension in addition to a polarization dimension, adding two dimensions beyond 3D.
To create the color dimension, the researchers inserted gold nanorods onto a disc's surface. Because nanoparticles react to light according to their shape, this allowed the researchers to record information in a range of different color wavelengths on the same physical disc location.
The polarization dimension was created when researchers projected light waves onto the disc and the direction of the electric field contained in the light waves aligned with the gold nanorods. That allowed the researchers to record different layers of information at different angles.
"The polarization can be rotated 360 degrees. We were, for example, able to record at zero degree polarization. Then on top of that, were able to record another layer of information at 90 degrees polarization, without them interfering with each other," said researcher James Chon.
Even a 1TB disc created with the technology would provide enough capacity to hold 300 feature length films or 250,000 songs.
One hurdle facing the researchers is a lack of suitable recording medium that would afford the speed needed to write to the discs. However the researchers are confident the discs will be commercially available within five to 10 years.
The team also said the technology is likely to have immediate applications in a range of fields, such as storing extremely large medical files like MRIs, and could be a boon in the financial, military and security arenas.
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yeah, what is it going to be 200 dollars a disk?
With such high density of ultra-concentrated data per inch, i think the biggest concern would be the resistance of the disc surface against scratches, grease, dust, etc. Any microscopic speck could render the disc unreadable partly or completely. Maybe encase it for protection, like the UMD disc?
I'm not very worried about the price... the bluray is already quite affordable nowadays and it didn't take very long for the prices to fall. The disc will obviously retail at a higher price than other lesser-capacity media, but as cheaper materials are found, and various brands get to work on it, developing cheaper manufacturing technologies, i think the prices will fall fast enough.
The main concern is the durability of these discs and how long they can retain the information without going "bad" with time.
i go to that uni
you know, i go to that uni but nobody ever mentions this type of research is happening..
Interesting, but it will probably never be released to the public, like many other research that got similar results as this one.