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Tying Knots With Light

Posted by Soulskill on from the knot-easy dept.

thedreadedwiccan points out a summary of a recently released physics paper about tying knots with light. A pair of researchers showed that a relatively new solution to Maxwell's equations allows light to be twisted into stable loops. They are designing experiments to test the theory now, and it could have a big impact on fusion technology. The paper's abstract is available at Nature, though a subscription is required to see the rest. Quoting: "In special situations, however, the loops might be stable, such as if light travels through plasma instead of through free space. One of the problems that has plagued experimental nuclear fusion reactors is that the plasma at the heart of them moves faster and faster and tends to escape. That motion can be controlled with magnetic fields, but current methods to generate those fields still don't do the job. If Irvine and Bouwmeester's discovery could be used to generate fields that would send the plasma in closed, non-expanding loops and help contain it, 'that would be extremely spectacular,' Bouwmeester says."

14 of 125 comments (clear)

  1. Done in 1984 - Flux Capacitor by Anonymous Coward · · Score: 4, Funny

    Anybody who is anybody saw the flux capacitor in what 1984 - this is old work. the flux capacitor had loops and curves etc.

  2. Real technical vocabulary by Nuclear+Elephant · · Score: 5, Funny

    If Irvine and Bouwmeester's discovery could be used to generate fields that would send the plasma in closed, non-expanding loops and help contain it, 'that would be extremely spectacular,' Bouwmeester says."

    Bouwmeester continued by saying that light is, "way cool" and the ability to tie knots with it would be, "totally freaking awesome".

  3. Light sabers? by slapyslapslap · · Score: 5, Funny

    Please tell me this is getting me closer to owning a light saber. PLEASE!!!

  4. The summary misses the key point by Kupfernigk · · Score: 4, Insightful
    The light knots are secondary, the key point is solutions to the equations in which the electric and magnetic fields form closed loops. Otherwise the submission makes no sense, because the plasma in fusion experiments consists of matter, not photons.

    Even so, why do I think this is not actually going to work? Because for the last fifty years, fusion power has been constantly just twenty years in the future, that's why. The authors don't claim a solution to fusion containment, they are talking about possible new ways of trapping photons or creating condensates.

    --
    From scarped cliff or quarried stone she cries "A thousand types are gone, I care for nothing, no not one."
    1. Re:The summary misses the key point by quanminoan · · Score: 4, Informative

      Exactly - the magnetic confinement for a fusion torus is already completely closed. With a torus, as I understand, there are issues with plasma stability that limit the performance of the devices. However, there is no need for this light looping when you can just alter the magnetic field. Stellarators use a sort of 'helical' magnetic field twisting around a toroid to create a much more stable environment. See: http://www.physics.ucla.edu/icnsp/Html/spong/w7x_with_coils.JPG.

    2. Re:The summary misses the key point by sedm1143 · · Score: 3, Interesting

      Yes, but plasma consists of charged particles which can be trapped by electro-magnetic fields. Light (in the wave picture at least) is simply an electro-magnetic field, so if you can tie light in loops theoretically you can also trap the plasma too. Now I agree that applications are a long way off - this is a theoretical paper so presumably no one has (intentionally) done it yet. If this proves interesting someone would have to build/modify an existing experiment to create and detect the phenomenon, and then there's a long way from there to a practical device, assuming it actually proves technically feasible.

  5. The Real Question is.... by cychem1 · · Score: 3, Interesting

    The real question is was a silver hammer necessary?

  6. It's just cool (though maybe unrealistic)! by gardyloo · · Score: 5, Informative

    The (slashdot) summary really does miss some of the key points, and emphasize the "fusion containment" aspect, which I doubt anyone takes seriously as a use of this. One of the points that I think is key is the whole subject of homotopy groups (which I've really just learned about).

    Maxwell's equations (and the wave equation, the Helmholtz equation in momentum space, etc.) have a family of solutions characterized by various parameter values. When you first start learning physics, you typically only allow real-valued wavevectors, which leads to only propagating waves and so on. Later on, you start to realize (as did George Green around 150 years ago, and Newton realized experimentally) that allowing for complex wavenumbers is more appealing mathematically (because it allows for more complete solutions), and actually leads to physically realizable solutions that propagating waves just don't give you. The effect of passing from real to complex wavenumbers is, on the face of it, crazy, but easily understandable once the analysis is carried out, and simple to visualize on an Argand diagram.

    However, homotopy groups (if I understand it correctly) say that there may be other solutions to such equations (in nonlinear/dispersive media) which one can't get to from just simple replacements of real with complex numbers, and so forth---these divisions are the "families" of solutions. There just isn't a simple projection from one family of solutions to another, and the solutions of from one may bear no resemblance to the solutions from other famililes. This means that there may, in sufficiently complicated systems, be physically realizable behaviors which a system may fall in to, which aren't describable by the "usual" solutions of the equations. Of course, Maxwell's equations work wonderfully in all situations I've ever heard of (no concession to the "Electric Universe" wackos!), so perhaps nature, for some reason, won't allow other families of solutions to make themselves known on any scale I know of.

  7. Ok, questions by Marrow · · Score: 3, Interesting

    1. How do you bend light without passing it through matter or using a grav field that will crush the experiment?

    2. If they can bend light, why are we using electron beams for crt's?

    3. If you could build loops of light can they be modulated to store information and read it back again?

    1. Re:Ok, questions by mhall119 · · Score: 4, Informative

      1. How do you bend light without passing it through matter or using a grav field that will crush the experiment?

      Magnetic fields will bend light, which I believe is what this paper was based on.

      2. If they can bend light, why are we using electron beams for crt's?

      Because it's easier to bend a stream of electrons than a stream of photons.

      3. If you could build loops of light can they be modulated to store information and read it back again?

      I suppose, in theory, but it wouldn't be the most efficient means of data storage.

      The reason, I think (IANAP), that this could be important to fusion reactions is that a photon loop within a plasma could heat the plasma to fusion-levels without the plasma trying to burn it's way through the outer walls of the reaction chamber. Current torus designs, I think (IANA nuclear scientist), run the plasma around the inside of a magnetic field, like cars on a racetrack, to get the energies necessary for fusion. This causes that super-hot plasma to push against the outer part of the magnetic field, which has to be extremely strong to contain it.

      --
      http://www.mhall119.com
  8. Re:Dr. Octavius? by Lord+Fury · · Score: 3, Funny

    Doc Oc was Spiderman 2. The villain in Spiderman 3 was conforming to societal pressures, security guards outside of Hot Topic, and running out of mascara and hair spray.

  9. Subscription required?? by linhares · · Score: 5, Insightful

    These science publishers are as evil or worse than the RIAA/MPAA with this paywall BS. To paraphrase, science is too important to be left to those that can pay 40 bucks per paper. I can't understand why Google, who wants to "organize the world's information", has not done anything to prevent the world's most valuable information from being inaccessible.

    1. Re:Subscription required?? by causality · · Score: 4, Insightful

      Well, they could zero the pagerank on sites that show different stuff to googlebot vs ordinary mortals.

      If THAT'S all it is, then set your user agent to "Googlebot/2.1 (+http://www.google.com/bot.html)" and say fuck 'em. But you're right, Google should actively resist this sort of double standard because it's a detriment to the usefulness of the search engine. It doesn't matter how many great results you get with a search engine if you can't actually access the information in those results.

      You know, I still don't understand why there is even such a thing as a user agent string. That is, I can see why i.e. Microsoft would want such a thing but I do not see any way that it's in the interests of users. If we really want standards and we really want openness, having no way for a Web server to determine what the browser is can only advance this goal. Then the only concern is whether that browser is standards-compliant.

      --
      It is a miracle that curiosity survives formal education. - Einstein
  10. Don't cross the streams by symbolset · · Score: 4, Funny

    That is all.

    --
    Help stamp out iliturcy.