T-rays produce 3Gbps short-range wireless, make WiFi pout in the corner

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The last time we saw T-rays, they were busy scanning bodies for tumors and security threats. Six researchers from the Tokyo Institute of Technology are now aiming the terahertz-level frequencies at a less organic target: fast wireless. Running at 542GHz, a rate that makes 60GHz ultra wideband look pokey, the scientists are sending data through the ether at about 3Gbps. The speed isn't as fast as the 7Gbps peak of WiGig, and the bandwidth runs dry at just 33 feet away, but it comes out of a resonant tunneling diode measuring 0.04 square inches -- definitely small enough to fit into a smartphone. The speed could magnify using higher frequencies and power levels, too, with 100Gbps being the dream. Knowing that it can take years for academic papers to translate to real products, we're not holding our breath for T-ray routers anytime soon. Still, the technology could make wideband a realistic option for handhelds and put the mere 1.3Gbps of 802.11ac WiFi to shame.

[Thanks, Andrew. Image credit: Deborah Miller and Warren Scott, Connexions]

T-rays produce 3Gbps short-range wireless, make WiFi pout in the corner originally appeared on Engadget on Wed, 16 May 2012 10:12:00 EDT. Please see our terms for use of feeds.

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Subretinal implant uses light instead of batteries, shows promise in initial testing

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There's been significant progress in bringing sight to the blind in recent years, and this looks set to continue that miraculous trend. Scientists at Stanford University have invented a subretinal photodiode implant for people who have lost their vision due to degenerative retinal diseases. Existing tech involves batteries and wires, but the new implant works without such crude appendages. Instead, it's activated by near-infrared beams projected by a camera that's mounted on glasses worn by the patient. Those beams then stimulate the optice nerve to allow light perception, motion detection and even basic shape awareness. The glasses also have an onboard camera that records what the patient sees. It hasn't actually been tested with humans just yet, but the first few rodents volunteers have yet to lodge a single complaint.

Subretinal implant uses light instead of batteries, shows promise in initial testing originally appeared on Engadget on Tue, 15 May 2012 04:32:00 EDT. Please see our terms for use of feeds.

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