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Bringing Back the Magic In Metamaterials

Posted by samzenpus on from the making-things-better dept.

Charliemopps writes: Though it's 30 years late, transparent aluminum, as predicted in the 1986 film Star Trek IV: The Voyage Home, may finally be here. There have been many attempts to create transparent metals in the past few years, and some have been somewhat successful, if only for a few femtoseconds. But now, by modifying metals like silver and aluminum at the subwavelength scale, researchers are developing "Meta-Materials" that cause light to interact with these metals in new and interesting ways. One of their more promising goals is to create a "perfect lens" which would allow an everyday person to view things as small as a virus with the naked eye.

9 of 83 comments (clear)

  1. Sapphire by chuckugly · · Score: 3, Funny

    If only we could mix a little of a common element, like say oxygen, with the aluminum, and grow transparent, super hard crystals.

    1. Re:Sapphire by Sowelu · · Score: 5, Funny

      Crikey, we've discovered a rare Bing user in the wild! What a marvel!

    2. Re:Sapphire by viperidaenz · · Score: 3, Insightful

      Yes, then you get a compound, that no longer has properties of the metal it is made from, like being electrically conductive. Sapphire is also ~20 less thermally conductive than aluminium too. You need to add zinc to make it conductive, which makes it less transparent.

      Conductive metal would be good for LED's and solar panels if they out-perform indium tin oxide

  2. What? by ArcadeMan · · Score: 4, Funny

    One of their more promising goals is to create a "perfect lens" which would allow an every day person to view things as small as a virus with the naked eye.

    What do you mean? You guys can't see viruses with the naked eye?

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  3. What is this BS? by Anonymous Coward · · Score: 5, Insightful

    "in the pass few years" - just bad editing.

    "the subwavelength scale" - pure unadulterated bullshit.

    So, did they have to invert the polarity of the warp field? Give me a fucking break.

    1. Re:What is this BS? by drhank1980 · · Score: 4, Informative

      Contrary to what the AC said subwavelength is not technobable. I am a lithographer. Its basically referring to being able to resolve images smaller than the wavelengths of light you are doing the imaging with. You cannot see a virus through a microscope because the visible light emitted from it has a wavelength that is too large to allow enough diffraction orders into the lens to allow it to resolve any valid features at your eye. This is the Rayleigh resolution criterion in action. In practical lithography cases we add in a K1 factor to Rayleigh's equation to quantify how difficult an imaging case is for a given wavelength and NA.

      Subwavelength imaging has been around in semiconductor processing for decades with people using tricks such as off-axis illumination and phase shifting masks to allow a 365nm light source to print 200nm features or a 193nm light source to print 45nm features. If you have used a computer in the last 20 years odds are most of the critical layers were imaged using subwavelength imaging.

  4. Illumination wavelength by NormalVisual · · Score: 5, Informative

    One of their more promising goals is to create a "perfect lens" which would allow an every day person to view things as small as a virus with the naked eye.

    Hmm, how does one see a 50nm virus when illuminated with 400 nm light, no matter how good the lens is? I guess you could illuminate it with far UV and use a fluorescent material to shift the wavelength of the magnified image into something visible, but I'm not sure what the lens has to do with that.

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    1. Re:Illumination wavelength by Zaelath · · Score: 4, Funny

      Not to mention; how naked is the eye with a lens over it?

      Wait... do you mean I'm NAKED under all these CLOTHES???!

    2. Re:Illumination wavelength by ceoyoyo · · Score: 4, Informative

      Theoretically, you can make a lens out of metamaterials that can resolve features smaller than the diffraction limit: https://en.wikipedia.org/wiki/....