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Material With Negative Refractive Index Created

Posted by kdawson on from the seeing-right-through-it dept.

holy_calamity writes "The race to build a material with a negative index of refraction for visible light has been won by researchers in Germany. The advance could lead to super-lenses able to see details finer then the wavelength of visible light, or the previously predicted invisibility cloak for visible light." From the article: "[The researcher] determined the refractive index of the material by measuring the 'phase velocity' of light as it passed through. His measurements show the structure has a negative refractive index of -0.6 for light with a wavelength of 780 nm [the far red end of the visible light spectrum]. This value drops to zero at 760 nm and 800 nm, and becomes positive at longer and shorter wavelengths."

15 of 210 comments (clear)

  1. All right! by morgan_greywolf · · Score: 5, Funny

    Nothing to see here. Move along.

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  2. Visible spectrum and cones by benhocking · · Score: 5, Informative

    Red is ~700 nm and violet is ~400 nm. A typical human can see light from the range of 390-750 nm with the aid of three cones. The three cones are the "red" cone (optimal at 564 nm), the "green" cone (optimal at 534 nm), and the "blue" cone (optimal at 420 nm).

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    1. Re:Visible spectrum and cones by silentounce · · Score: 5, Funny

      Yes, the "far red end". Finally, I shall have my revenge. There shall be no more red. My fellow color-blind brethren rejoice. No longer will they laugh and point at us. That's not green! You idiot! Idiot? I think not. Our time is now.

      --
      There are many tongues to talk, and but few heads to think. -Victor Hugo
  3. Re:Negative or less than one? by HotBBQ · · Score: 5, Funny

    We're always looking for ways to make light go faster than C.

    Write it in Java.

  4. Wikipedia by benhocking · · Score: 5, Informative

    Wikipedia does a good job describing refraction and the refractive index. You should try to understand refraction before trying to understand the refractive index.

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  5. Finally... by Druox · · Score: 5, Funny

    An invisibility cloak..

    For the first time, I may have a real shot at seeing real life naked boobies

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  6. Re:Can someone explain a refraction index? by VorpalEdge · · Score: 5, Funny

    If I check another site, I lose my excuse for bashing the poor quality of the article. That's just not an option.

  7. Group vs. Phase Velocity by Jazzer_Techie · · Score: 5, Informative

    When one talks about a wave propagating through a medium, there are two velocities that one usually considers, the group velocity and the phase velocity. The group velocity is the speed at which energy and information are moving. (This isn't always true, but for most materials it is or is a good approximation.) The phase velocity is how fast a "phase" (a feature like a crest) appears to be moving.

    A good way to visualize the difference is to think of a ocean waves hitting a wall at an angle. The speed which with the wave itself is moving is the group velocity, but if you look at the wall, you will see the crests moving along at a different speed. (If you have trouble seeing that, make a little sketch.) There is also a nice Java applet (GPLed!) here, which does a good job of illustrating the difference

  8. Re:yes, but RTFA, they were not first. by Anonymous Coward · · Score: 5, Funny

    I actually achieved this a couple of years ago. But the phone rang and I set it down somewhere, and now I can't find it.

  9. Re:Negative or less than one? by elzahir · · Score: 5, Funny

    No, he said _faster_

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  10. Re:Why do Germans seem ... by anonymous22 · · Score: 5, Funny

    It's the beer.

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  11. Re:Can someone explain a refraction index? by radtea · · Score: 5, Informative

    Furthermore, it doesn't explain what the basic properties of a positive refraction index are (aside from saying that it's normal), let alone what negative indexes could do.

    In ordinary optics, refractive index is the ratio of the velocity of light in vacuum (c) to the velocity in the material (v):

    n = c/v

    Since v <= c, n >= 1 is always true.

    But light, being wavelike, has two velocities associated with it: the phase velocity, which is the velocity of an individual crest in a monochromatic light wave, and the group velocity, which is the velocity of a wave packet consisting of many frequencies. Depending on which velocity you care about, and how you deal with wave packets, it appears that you can extend the definition of refractive index in such a way that negative refractive index is meaningful. The discussions of this that I have seen online are uniformly confusing, so I'm not clear on exactly what is going on, although it is clear that negative extended refractive indices do make sense.

    One analogy to think about is the conventional definition of resistance: R = V/I. Clearly by this definition resistance is always positive. But if instead you think of resistance as being the slope of the V/I curve, it is clearly possible for a device whose (conventional) resistance decreases with increasing current it is possible to have a slope that is negative, and this can be treated as "negative resistance". Tunnel diodes exhibit this effect.

    If one were to be gloriously pedantic about this, one would only use the terms "negative extended refractive index" and "negative extended resistance", because "negative refractive index" and "negative resistance" are confusing oxymorons to the vast majority of people in the world who are at best familiar with the conventional definitions. And in fact, we usually do make this kind of distinction. We use terms like "electric car" because "car" means "internal combustion engine hydrocarbon-powered road vehicle" to the vast majority of people. Therefore headlines like, "New Car Does Not Need Gasline" would be obviously misleading and confusing if they actually meant "New Electric Car Does Not Need Gasoline."

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  12. Re:Invisibility cloak? by Born2bwire · · Score: 5, Interesting

    What left-handed materials do is that it bends light in the opposite sense that we are accustomed. For example, if you place a pencil in a glass of water, the refraction of light will make the pencil appear shallower than its true position. If the pencil is placed in a left-handed medium, then the pencil will appear deeper than it actually is.

    What happens is that left-handed (aka negative refractive index) materials will bend light away from the surface of the material instead of towards it. So making an "invisibility cloak" is not that hard. First off, to solve the problem of knowing where the eye is, you simply make the surface of the material symmetric. So for a three-dimensional object, the left-handed material needs to be spherically symmetric. They have produced an example in the microwave region for a cylindrically symmetric configuration. But the cylindrical symmetry means that the shroud will only work for certain polarizations of light.

    So what happens is that when light hits the curved surface, instead of being bent in towards the center, it is bent outwards. If the refractive properties of the medium are properly tuned, what you end up doing is bending the light around the obstacle such that it leaves the medium in the same path that it would have without the obstacle. So the "invisibility cloak" works by bending light around and emitting it so that the light behaves as if there was no object. Since the medium is symmetrical, it does not matter where the source and receivers are.

    For a true cloak to work will require a really neat feat of engineering because the refractive properties of the material must be constantly adjusting with the movement of the cloak.

  13. Re:Negative or less than one? by FooAtWFU · · Score: 5, Insightful
    So light goes backwards in this doodad?
    Nope. Neither does light does not move faster than the speed of light, just phase groups. These crests and troughs of the light are features of the wave, but not any sort of signal or material in and of themselves. It's just an abstraction. Think of it this way: if you had two people a light-year apart, and they both raised their hands into the air at the same time to do The Wave, would you say that they sent a signal faster than the speed of light? If you had a one-light-year-long string of lights, and you rigged them all so they turned on at the exact same moment (presumably using some sort of countdown), would you say they've sent a signal faster than the speed of light? (Have you, in fact, sent a signal with infinite speed?) No, you haven't. You've gotten an abstraction to move faster than the speed of light, but that's not really very interesting for physics.
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  14. Re:Camera lenses by nokiator · · Score: 5, Informative

    Technically, this is true, but I am not sure about the reasonable cost part. It is also possible to correct chromatic aberration using diffractive lenses which require much less exotic (at least completely passive) technology. Canon has been able to take the concept of diffractive optics technology to market to manufacture some relatively compact telephoto lenses but even after many years of production, DO lenses are still quite expensive.