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Scientists Make Item Invisible to Microwaves

Posted by ryuzaki0 on from the on-our-way-to-vulcan-level-tech dept.

Vicissidude writes "A team of American and British researchers has made a cloak of invisibility. In their experiment the scientists used microwaves to try and detect a copper cylinder. Like light and radar waves, microwaves bounce off objects making them visible and creating a shadow, though it has to be detected with instruments. If you can hide something from microwaves, you can hide it from radar and visible light. In effect the device, made of metamaterials — engineered mixtures of metal and circuit board materials, which could include ceramic, Teflon or fiber composite materials — channels the microwaves around the object being hidden. When water flows around a rock, co-author David R. Smith explained, the water recombines after it passes the rock and people looking at the water downstream would never know it had passed a rock. The first working cloak was in only two dimensions and did cast a small shadow, Smith acknowledged. The next step is to go for three dimensions and to eliminate any shadow."

19 of 219 comments (clear)

  1. I know a recently-shampooed poodle by Anonymous Coward · · Score: 5, Funny

    ...that would love to be invisible to microwaves.

  2. Moo by Chacham · · Score: 4, Insightful
    FTA:
    A team of American and British researchers has made a Cloak of Invisibility. Well, OK, it's not perfect. Yet. But it's a start, and it did a pretty good job of hiding a copper cylinder.
    So, we'll just just change his name to Harry Copper.

    This title is absurd. Invisibilty?

    The research is very kewl though, and i hope it progresses. But why not lay off the stupid titles, and produce results based on kewlness or usefulness, instead of what can be termed with a popular buzzword. Information Technology is bad enough from its buzzword infusion. Must we destroy legitamte research/discoveries as well?
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    1. Re:Moo by twostar · · Score: 5, Funny

      someone using the term "kewl" is complaining about buzzwords?

      *Ring* Hello?
      Hi, this is the Pot calling. Is the Kettle in?

  3. Yay for TV Dinners by Odin_Tiger · · Score: 4, Funny

    This will allow for more variety in TV Dinner desserts, because they can just shield it so only the stuff that needs to get nuked will get nuked. w00t!

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    Unpleasantries.
  4. Bah! by Clazzy · · Score: 5, Funny

    They could've posted a pict...

    Oh, wait. Never mind!

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    If we can hit that bull's-eye, the rest of the dominoes will fall like a house of cards... Checkmate.
  5. meta-materials by lgw · · Score: 5, Informative
    If you can hide something from microwaves, you can hide it from radar and visible light.

    I don't think this follows, at least when we're talking about metamaterials. So far no one has invented metamaterials for optical wavelengths, as metamaterials rely on complex structure that's somewhat wavelength specific. It's easier to play "fool the photon" with microwaves (because of the longer wavelength) or X-rays (because of the higher energy) than it is with visible light. (Xiang Zhang's experiments in extending near-field effects of visible light are a very different mechanism, and are lumpedin with metamaterials simply for lack of a better term.)
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    Socialism: a lie told by totalitarians and believed by fools.
  6. Backpack of Invisibility? by Doc+Ruby · · Score: 4, Interesting

    I'll go out on a limb on a series of "ifs" (and maybe a bag of physics naivetes), but let's say we perfect this manner of imperceptibly "derefracting" light. And let's say we also complete the ambitious work identifying and manipulating gravitons, still hypothetical. Could we "cloak" spaces and matter from any interaction with our universe, not just electromagnetic? Maybe the Stong and Weak Forces would remain for interaction, but practically, outside the tiny diameter of a nucleus, could anyone notice?

    Could a "gravity cloak" create subspaces operating as independent universes? Could we contain matter too highly interactive for current use safely? Like a tiny black hole conveniently near a device it's powering, or a pair coupled into a wormhole for "faster than light" travel through custom-folded space? Vast amounts of stuff crammed into pocketsized spaces.

    Maybe the old playground philosphers choosing between "teleportation or invisibility superpowers" will finally have a lab to figure out which is really better.

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  7. Stealth Ship by rlp · · Score: 4, Insightful

    Sounds like a better version of stealth. I recall reading that an early attempt at a stealth ship did TOO good of a job of dispersing microwaves (compared to background reflection of empty ocean) and showed up as a moving 'hole' on surface radar screens. Assuming that this technology could be applied to bending light around an object, it would need to do so without creating obvious distortions.

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    [Insert pithy quote here]
  8. Re:Was Anyone Else Thinking... by angelasmark · · Score: 4, Insightful

    You obviously didn't grow up on too much star trek. Any true trekkie would know that its a Romulan Warbird and a Klingon Bird of Prey...

  9. Re:Why should Harry Potter have all the fun? by thermopile · · Score: 5, Informative
    I was on a selection committee for DARPA to look into this stuff a few years ago.

    Negative Index of refraction Materials (NIMs), metamaterials, or whatever you want to call them, are relatively easy to make in the microwave region, since the wavelengths are on the order of centimeters. Thus, using a special arrangement of rings, loops, and wires, you can craft a lattice-like material that exhibits negative refraction. Technically, it has a negative magnetic permeability (mu) and negative permittivity (epsilon).

    This has all kinds of weird implications. The group velocity is still in the forward direction, but the phase velocity goes in reverse. Evanescent waves propogate, not die off. Perfect lenses can be made. Measurements LESS than the wavelength of light can be taken. There was a list of implications in the August issue of Scientific American, I believe.

    Anyhow, this works great at the ~cm scale. Visible light is hard as hell: the scale there is on the order of nanometers. And the copper or silver or tungsten wires used to make the metamaterials have MISERABLE magnetic losses at these small scales, so mu is no longer negative. The energy no longer propagates in the medium. As of three years ago, there were no promising candidates for solving this problem. There was an outside hack at using carbon nanotubes -- which may or may not maintain their permeability down to small scales -- but it was a long shot at best. Arranging the little guys would have been devilishly difficult.

    Glad to see that Pendry, who's been in this field almost as long as Veselago, is still making good strides. Even if they can't get to the visible wavelength, NIM's have spectacular applications for microwave antennae.

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    "Diplomacy is something you do until you find a rock." --Richard Pound

  10. Re:Quite some time. by Rei · · Score: 4, Interesting

    And the biggest beneficiary of infantry invisibility suits? Guerilla fighters.

    Sure, they won't get them right away. But you better believe that they'll try to capture them, and any state sponsors that they have immediately try and produce or otherwise acquire them. Big armies, trying to cloak things like tanks driving down the stret, will have a much harder job at it than fighters simply hiding themselves and their RPG, already in the shadows or buildings. Not to mention things like pressure or vibration-triggered mines/IEDs won't be affected, which also benefits guerilla fighters on their own turf.

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  11. Re:Quite some time. by XenoRyet · · Score: 5, Insightful
    The real issue, and the major downside to a cloak of this nature, is how do you see where you're going while you are wearing it?

    If it's diverting all the light around you, there's no light to get in and hit your eye so you can see.

    The solution would be much more complex than the basic cloak. You'd have to let some light in, but make sure it didn't get back out again. I can see that being problimatic.

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  12. Re:Actual invisibility is useless by DrKyle · · Score: 4, Insightful

    There's this thing called a pinhole camera, it's a relatively new advance. By allowing this pinhole of light in with the proper equipment just enough light could be absorbed to allow the user to navigate. Of course there would be a visible pinhole floating in space, but could you reliably pick it out at a distance of more than a few feet?

  13. Fermat's principle by Anonymous Coward · · Score: 4, Informative

    To expand: light following the path of least time is known as Fermat's principle. Fermat's principle can in turn be derived from Feynman's path integral formulation of quantum mechanics; it is related to the principle of least action. Feynman's book QED: The Strange Theory of Light and Matter has a lay derivation of Fermat's principle from path integrals (due to constructive superposition of quantum phase differences).

  14. Re:Was Anyone Else Thinking... by OfficialReverendStev · · Score: 5, Funny

    You obviously didn't either. Somebody bring me the learnin' stick. You're both technically right. The Romulan Bird-of-Prey (from TOS, small white-ish ship with the bird painted on the bottom) did have a cloaking device, as did the Klingon (and Romulan) D-7 Battlecruiser. In the TNG era the Romulan Warbird (big and green) and the contemporary Klingon ships (Bird-of-Prey and Vor'Cha). Now, go play. I have a phaser to polish.

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    A casual stroll through the lunatic asylum shows that faith does not prove anything. - Neitzsche
  15. They're making this WAAAAAAAAY too complicated. by frogstar_robot · · Score: 4, Funny

    Just paint the copper cylinder pink and turn on a cheap and simple Somebody Else's Problem Field.......

  16. Re:Quite some time. by c6gunner · · Score: 4, Insightful

    It just means that organized combat would evolve to take advantage of them also. Ever since WW2 we've been moving to smaller and smaller units working as independent organizations, then re-combining to carry out more complex tasks. With the introduction of cloaking technology you'd see the extreme end of that. 4-8 man squads operating independently on foot and light vehicles, hunting down guerrillas the same way the currently hunt us. Biggest obstacle to us doing that NOW is that we're so easy to identify. If we could have small units operating all over a city, totally invisible to anyone...well, good luck trying to plant IED's, or even gathering at your buddy Ahmed's house to discuss tomorrow's plan of attack.

  17. Re:Quite some time. by borawjm · · Score: 5, Funny

    The real issue, and the major downside to a cloak of this nature, is how do you see where you're going while you are wearing it?

    Use your feelings, you must

  18. Re:Picture here! by ichigo+2.0 · · Score: 4, Funny

    The site seems to be cloaked from the HTTP spectrum.