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'Slow' Light To Speed Up the Net

Posted by samzenpus on from the haste-makes-waste dept.

JPawlak writes "Researchers believe that it may be possible to increase the speed of the Internet by slowing down certain parts of it by using metamaterials. Metamaterials could be used to replace the bulky and slow electronics that route Internet information, allowing for faster Internet speeds. As data nears its destination, the frequencies must be separated. The light must then be converted into electrical signals, which are stored, routed, and converted back into optical signals. The conversion not only adds significant cost and complexity to the process, but slows down the transmission as well. However, if the light signals could be slowed during the switching process, they would not need to be converted into an electrical signal. 'The ability to slow the light could be a tremendous force for telecoms that is sure to enhance speed and efficiency,' says University of California professor Xiang Zhang."

10 of 107 comments (clear)

  1. More info by ipX · · Score: 5, Informative

    "The metamaterials work of Professor Xiang Zhang and his team at the University of California at Berkeley is being highlighted in a paper Wednesday in the online version of the journal Nature and in another appearing Friday in the journal Science."

    http://www.newsfactor.com/story.xhtml?story_id=61321

  2. Re:Hmmm by Serenissima · · Score: 5, Interesting

    Yup! It's similar to traffic congestion problem that someone figures out how to solve every couple months. If everyone's driving fast and there's a slow point, all the cars back up. If everyone, hell - if one person, slows down and leaves room inbetween their cars, that gives the tight spot enough room to accommodate the traffic and the congestion dies.

    It's a rather simplistic model compared to internet switches, but it sort of works. If you don't overload the switches, you'll have less network congestion. Less Network Congestion=Faster Communication

    --
    Give a man a fire and he'll be warm for a day. But light a man on fire and he'll be warm for the rest of his life.
  3. Here's the paper in Nature by ipX · · Score: 5, Informative

    http://www.nature.com/nature/journal/vaop/ncurrent/full/nature07247.html

  4. Re:Hmmm by thelamecamel · · Score: 5, Informative

    Sort of. At the moment, all routing is done electronically. The electronics doesn't have as much bandwidth as the fibres feeding it due to slow response times of electronics. So whenever three or more fibres join, you have an information bottleneck. It would be wonderful if this routing could be done optically, allowing much higher bandwidth routers, removing the bottleneck.

    But a router is a bit like a set of traffic lights - if two packets of information travelling to the same destination arrive the router at the same time, then one of them needs to be delayed while the other one is sent through. This requires some way of slowing pulses of light.

    Today, these people are claiming that metamaterials will be useful for slowing light, and would thus be useful in such an optical router. I'm a tad skeptical about this at the moment (not sure what the losses would be), and there are several other challenges that need to be met in order to create an optical router.

  5. Re:Repeaters by thelamecamel · · Score: 5, Informative

    All-optical regenerators (i.e. repeaters) have been developed - I'm not sure whether they've been implemented yet or whether there's a bit more work to be done (I'm not sure whether they support multiple channels yet), but it's certainly a much simpler problem that's much closer to being solved than optical switching.

    Fibres can handle much more data than the electronics, so we multiplex the output of 64 electronic systems, send all that down a single fibre, demultiplex it (i.e. split it back into 64 separate fibres) and feed these signals to 64 sets of electronics. I'm pretty sure the multiplexing/demultiplexing is fast, but the problem is that you need 64 electronic routers.

    Optical switching would allow much higher bandwidth per channel, meaning you can replace the 64 channels by one, and you'd only need one optical switch rather than 64 electronic ones.

  6. Another idea by narcberry · · Score: 5, Funny

    Or we could remove the unconstitutional packet sniffing equipment on the backbone.

    --
    Modding me -1 troll doesn't make me wrong.
  7. Re:Repeaters by Animats · · Score: 5, Informative

    Fibre optic amplifiers have been all-optical for about ten years now. It's a neat technology; there's a section of erbium-doped fibre that's made to almost, but not quite, lase, by pumping the atoms up with an external laser light source that's at a lower frequency than the signal. The signal then pushes the fibre over the threshold where there's laser-type activity, and more photons come out than went in.

  8. It's a way to do optical buffering in routers by Animats · · Score: 5, Informative

    What this is all about is finding some way to do short-term optical packet storage in switches. As yet, there's no optical equivalent of RAM. All-optical gates can be built, and simple logic is possible, but there are no good storage elements. So at present there are optical switches (no queueing), but not optical routers. In order to combine packets from multiple input paths to a single output path, some of the packets need to be delayed until there's free time on the output path. Routers have output queues in RAM to do this. The idea here is to find some way to do this without RAM.

    Optical delay lines are simple enough; they're just sections of fibre optic. There are designs for pure optical routers which have little delay loops to which packets can be diverted while waiting for free time on an outgoing line. The delay is fixed, so this sort of thing tends to work better if all the packets are the same size, as in ATM. This new material, where propagation speed varies with light frequency, might be useful as a variable-delay storage medium. Maybe.

    This is an area of much active work. Several clever ways have been developed to work around the no-RAM problem. Sort of. None of them are really satisfactory, in the sense of being able to build an optical router that does what an electronic router does now. The network backbone has to be designed around the limitations of the optical technology.

    (Note that some optical switches are referred to by their vendors as "routers". They're not. Some of them, the ones with MEMS mirrors, for example, are circuit switches, like a classical phone switch.)

  9. Re:Hmmm by cnettel · · Score: 5, Informative

    Unfortunately life is not that simple, at 10gigabit you get 33bits per meter. That means that a 1500byte frame occupies about 360m, even if you could knock the speed down 90% you would still need 36m of whatever. And that's just so that you can get it all out before it starts coming back in again.

    Your math is off. If we move a wave from one medium to another, the frequency will be preserved, not the wavelength. The "width" of a singal in a slow medium will be far lower as well.

  10. Re:Hmmm by CastrTroy · · Score: 5, Insightful

    I think it was George Carlin who said

    Did you ever notice that everybody who drives slower than you is an idiot. And that everybody who drives faster than you is a maniac?

    --

    Anthropic principle: We see the universe the way it is because if it were different we would not be here to see it.