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March 13, 2012 01:57 am EDT
Much like carbon nanotubes and quantum computing, terahertz technologies have been promising miracles for nearly as long as humans have been able to distinguish water from fire. We exaggerate, but barely. A crafty team assembled at the University of Pittsburgh seems to have no qualms with moving forward, however, recently announcing a new physical basis for terahertz bandwidth. Those involved managed to have success in generating a frequency comb -- "dividing a single color of light into a series of evenly spaced spectral lines for a variety of uses -- that spans a more than 100 terahertz bandwidth by exciting a coherent collective of atomic motions in a semiconductor silicon crystal." For those who managed to make it through the technobabble, we're told that the ability to modulate light with such a bandwidth could "increase the amount of information carried by more than 1,000 times when compared to the volume carried with today's technologies." Smartphones, computers and even airline check-in kiosks that operate 1,000 faster than they do today? Sure, we'll take that. But, how about give us a ring when Wally World deems it ripe for commercialization? We'll be waiting -- pinky promise.
PCMag | 
University of Pittsburgh, Nature ||Comments
Original Link: http://www.engadget.com/2012/03/12/terahertz-bandwidth-faster-smartphones-communications/
Terahertz bandwidth: the key to 1,000x faster smartphones, laptops and pipe dreams
Much like carbon nanotubes and quantum computing, terahertz technologies have been promising miracles for nearly as long as humans have been able to distinguish water from fire. We exaggerate, but barely. A crafty team assembled at the University of Pittsburgh seems to have no qualms with moving forward, however, recently announcing a new physical basis for terahertz bandwidth. Those involved managed to have success in generating a frequency comb -- "dividing a single color of light into a series of evenly spaced spectral lines for a variety of uses -- that spans a more than 100 terahertz bandwidth by exciting a coherent collective of atomic motions in a semiconductor silicon crystal." For those who managed to make it through the technobabble, we're told that the ability to modulate light with such a bandwidth could "increase the amount of information carried by more than 1,000 times when compared to the volume carried with today's technologies." Smartphones, computers and even airline check-in kiosks that operate 1,000 faster than they do today? Sure, we'll take that. But, how about give us a ring when Wally World deems it ripe for commercialization? We'll be waiting -- pinky promise.Terahertz bandwidth: the key to 1,000x faster smartphones, laptops and pipe dreams originally appeared on Engadget on Mon, 12 Mar 2012 21:57:00 EDT. Please see our terms for use of feeds.
PermalinkPCMag | University of Pittsburgh, Nature ||CommentsOriginal Link: http://www.engadget.com/2012/03/12/terahertz-bandwidth-faster-smartphones-communications/
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Engadget
Engadget is a web magazine with obsessive daily coverage of everything new in gadgets and consumer electronics. Engadget was launched in March of 2004 in partnership with the Weblogs, Inc. Network (WIMore About this Source Visit Engadget