Like a whirlpool, a new light-based communication tool carries data in a swift, circular motion. The optics advancement could become a central component of next generation computers designed to handle society’s growing demand for information sharing. It may also be a salve to those fretting over the predicted end of Moore’s Law, the idea that researchers will find new ways to continue making computers smaller, faster and cheaper.
“To transfer more data while using less energy, we need to rethink what’s inside these machines,” says Liang Feng, PhD, assistant professor in the Department of Electrical Engineering, University at Buffalo. Researchers are running into a bottleneck in which existing technology may no longer meet society’s demand for data. Predictions vary, but many suggest this could happen within the next five years.
Researchers are addressing the matter in numerous ways including optical communications, which uses light to carry information. Examples vary from old lighthouses to modern fiber optic cables used to watch television and browse the internet. Lasers are a central part of today’s optical communication systems. Researchers have been manipulating lasers in various ways, most commonly by funneling different signals into one path, to carry more information. But these techniques – specifically, wavelength-division multiplexing and time-division multiplexing — are also reaching their limits.
The UB-led research team is pushing laser technology forward using another light manipulation technique called orbital angular momentum, which distributes the laser in a corkscrew pattern with a vortex at the center. Usually too large to work on today’s computers, the UB-led team was able to shrink the vortex laser to the point where it is compatible with computer chips. Because the laser beam travels in a corkscrew pattern, encoding information into different vortex twists, it’s able to carry 10X or more the amount of information than linear conventional lasers.
The vortex laser is one component of many, such as advanced transmitters and receivers, which will ultimately be needed to continue building more powerful computers and datacenters. http://www.buffalo.edu/news/releases/2016/07/034.html
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