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Science

Liquid Crystals and Lasers 16

Posted by michael from the weird-science dept.
Wan2Be writes "A new kind of glass pane that quickly switches from transparent to diffracting and back again. The change is triggered by applying an electric field, so the pane could easily be controlled by the electric signals of a computer, offering a powerful new way to steer beams of light."
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Liquid Crystals and Lasers More

Liquid Crystals and Lasers

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  • Too slow for communications (Score:4, Insightful)

    by hbackert ( 45117 ) on Friday July 25, 2003 @10:00PM (#6537813) Homepage

    LCs are very slow compared to what is nowadays the speed bits traveling along a glass fibre. I cannot see a useful way of using it directly to redirect or modulate laser light. Maybe indirectly (like in getting rid of reflections), but this technology is still slow compared to what you can do with real crystals. Those are unfortunately very delicate objects (humidity is bad, bad, bad) and pretty expensive and you cannot make large ones (but you do not need to as laser light is usually small area-wise).

    So unless someone shows me a useable way to use this technology, I will put it in the box Interresting technology with no current use with Internet attached to it to make it seem more interresting than it is.

    • You are correct, too slow for communications.

      However, many areas of manufacturing these days use lasers, and these would be plenty fast for those applications. They would also get rid of moving parts, which is great since many manufacturing environments contain large amounts of airborne debris which require anything with moving parts to me continually maintained/replaced.

      So, maybe not fast enough for communication, but fast enough for other things. Also, given enough time, it could catch up with desirabl

      • Re:Too slow for communications (Score:5, Informative)

        by js7a ( 579872 ) * <james @ b o v i k .org> on Saturday July 26, 2003 @01:19AM (#6538450) Homepage Journal
        given enough time, it could catch up with desirable data speeds

        Liquid crystals are really slow. You really have to struggle to get 35 ms switching out of them, which is what the movie people want. These diffraction switches are a lot faster, but I doubt they'll ever get faster than 0.5 ms.

        The basic problem is that you're dealing with long strands of polymers [washington.edu] which orient themselves almost but predictably not quite parallel to each neighboring polymer strand, unless a current is flowing, in which case they just align strictly parallel to each other. It takes time, lots of time, for the reconfiguration to occur, because it is a fundamentally mechanical process.

        The article cited did a horrible job IMHO of representing the underlyng science. The regularity of the crystal droplets has nothing to do with the new effect -- which is using a thinner layer of liquid crystals to difract instead of polarize, which requires thicker LCs. The droplet regularity is an artifact of the thinness, not a cause of the essential property as is purported.

        • OT - Re:2012 (Score:1, Offtopic)

          by Red Rocket ( 473003 )

          I was worried about that 2012 date myself until I found out why the Maya chose that date as the end of their time. I'm amazed at how much the Maya were able to learn and I believe they had knowledge that we've yet to discover but I'm beginning to believe now that the 2012 date is simply an astronomical event.
          The Maya were deeply religious and their religion was based on astronomy. Their convictions led them to construct pyramids so they could see over the jungle canopy to the horizon. It's on the horizon wh

    • Or driver side mirrors. As soon as some SUV does the brights on you, just turn your windows to black...

      • ... or for a variable sun roof. The Maybach 62 - a Mercedes for people with too much money - has an adjustable rear roof. [carpages.co.uk] "The laminated glass pane on the inside has an intermediate layer in the form of a liquid crystal membrane of conductive polymer plastic. The membrane has a cable connection to a control unit which generates an AC output of 90 volts. Switching the power on arranges the crystals in the plastic membrane in such a way that the glass becomes transparent and allows daylight into the rear of
    • LCs are very slow compared to what is nowadays the speed bits traveling along a glass fibre. I cannot see a useful way of using it directly to redirect or modulate laser light.

      LCs are definitely too slow to be used for something like modulation or per-packet switching, given current data rates (an OC-192 fiber carries approximately 10Gbps, or one bit per 0.1ns).

      But there are other uses. It is still useful for pure optical circuit-switching applications, where you want software to set up an optical circ

  • Something that can aim a beam of light without needing a moving part could be very useful for holographic storage.

    I hope this development can help with improving holographic storage. Someday, the hard drive will reach its limit, and people will grow tired of the noise and reliability problems....

  • Weird Science (Score:3, Insightful)

    by DerekLyons ( 302214 ) <fairwater@gmai l . c om> on Saturday July 26, 2003 @01:30PM (#6540541) Homepage
    A quote from the article;
    Link and colleagues aren't sure what they're going to find when they shine light through several stacked-up layers of these ordered droplets ... that's what's so exciting about doing it! It might split the light up into a rainbow, like a prism, or it might affect the light in a totally unexpected way.
    This verges awfully close to being junk science. If you don't have some expectations to compare results to, or some theory of what the results are likely to be, it's awful hard to come up with valid results. Having something other than your expectations occur is OK, as is having your theory be wrong. That's how science advances, by figuring out how and why you were wrong. Bad science happens when the opposite occurs, when you handwave away results that don't meet your theory, or rig results and experiments, or when you assume something you don't understand is something it isn't. (Pons and Fliechmann made all of these mistakes and more.)
    • This verges awfully close to being junk science. If you don't have some expectations to compare results to, or some theory of what the results are likely to be, it's awful hard to come up with valid results.

      I agree with your point, especially when the article goes on to say:

      But first they need to find reliable ways to arrange the droplets into various 3-dimensional patterns. This is where low gravity comes in handy. Weightlessness greatly simplifies making 3-D structures from fluid droplets...

      To a te
  • is there any kind of LCD or other material that can go from reflective to transparent?

    I have an invention idea that requires such a thing.

    It also would need to be able to switch pretty rapidly...

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