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Reflectivity Reaches a New Low

Posted by Zonk on from the engaging-cloaking-device dept.

sporkme writes "A new nanocoating material developed by a team of researchers from Rensselaer Polytechnic Institute has the lowest level of reflectivity ever seen ... or not seen in this case. The amount of light reflected by the composite of silica nanorods and aluminum nitride is almost the same amount reflected by air. From the article: 'Schubert and his coworkers have created a material with a refractive index of 1.05, which is extremely close to the refractive index of air and the lowest ever reported. Window glass, for comparison, has a refractive index of about 1.45. Using a technique called oblique angle deposition, the researchers deposited silica nanorods at an angle of precisely 45 degrees on top of a thin film of aluminum nitride, which is a semiconducting material used in advanced light-emitting diodes (LEDs). From the side, the films look much like the cross section of a piece of lawn turf with the blades slightly flattened.' Suggested applications include increased efficiency in solar cells, more energy-efficient lighting and advances in quantum mechanics."

23 of 166 comments (clear)

  1. Hey check out my new low reflective phone! by Anonymous Coward · · Score: 5, Funny

    oh crap where did it go?

    1. Re:Hey check out my new low reflective phone! by fyngyrz · · Score: 4, Funny

      Ooooh! Shiny! Wait... awwwww...

      --
      I've fallen off your lawn, and I can't get up.
  2. And what everyone was really thinking... by Anonymous Coward · · Score: 5, Funny

    Even more birds hitting windows!

    1. Re:And what everyone was really thinking... by ACS+Solver · · Score: 3, Funny

      Speaking of windows. Vista has "glass" style Aero. Now Windows Vienna will have a new "nanocoating" style, even less reflective than Vista!

    2. Re:And what everyone was really thinking... by Anonymous Coward · · Score: 4, Funny

      I think you mean:

      • Even more bugs hitting windows!
    3. Re:And what everyone was really thinking... by Zonk+(troll) · · Score: 4, Funny

      (Wonder woman is flying through the sky in a sitting position)

      Superman: So, I see you're flying the invisible plane.

      Wonder Woman: Oooh, um...er...this is...kinda embarrassing. You see...I'm actually, in the lavatory of the invisible plane.

      Superman: Oh...so, you mean...right now, you're...

      Wonder Woman: Yeah.

      (Wonder Woman stands up and walks forwards, sitting down again and gripping the invisible steering wheel)

      Superman: So...I noticed you didn't wash your hands in the invisible sink...

      --
      "The Federal Reserve is a fraudulent system."--Lew Rockwell
      End The FED. -
    4. Re:And what everyone was really thinking... by amRadioHed · · Score: 4, Informative

      Give credit where credit's due man, that's taken from a Family Guy episode.

      --
      We hope your rules and wisdom choke you / Now we are one in everlasting peace
  3. Nothing to see here... by messerman · · Score: 5, Funny

    ...move along.

  4. The material has a variable refractive index. by spun · · Score: 5, Informative

    They made several layers with increasing refractive indices, so the RI of the outermost coating is close to air while that of the innermost coating is close to the material it coats. What's cool about this is that it cuts reflexion across the EM spectrum, it doesn't just trade off reflectivity in one part of the spectrum for that in another, like previous anti-reflective coatings have done. Unfortunately, it isn't transparent so it won't work as a coating for glass.

    --
    - None can love freedom heartily, but good men; the rest love not freedom, but license. -- John Milton
  5. Transparent Aluminum? by Archangel+Michael · · Score: 3, Funny

    Would this constitute "Transparent Aluminum?

    typed on "Keyboard, how quaint"

    --
    Agent K: A *person* is smart. People are dumb, stupid, panicky animals, and you know it.
    1. Re:Transparent Aluminum? by Tackhead · · Score: 3, Funny
      > Would this constitute "Transparent Aluminum?
      >
      >typed on "Keyboard, how quaint"

      Naw, that ship was at least visible. How about something like that ship over there. I mean that... is really bad for the eyes... I mean you can hardly make out its shape... light just seems to fall into it!

      And the UI... I mean, it's the wild color scheme that freaks me. Every time you try to operate on of these weird black controls that are labelled in black on a black background, a little black light lights up black to let you know you've done it. And then it crashes into the sun! What kind of UI is this, Windows Aero?

  6. For Energy-Efficient LIGHTING? by drinkypoo · · Score: 4, Insightful

    How does reducing reflection increase the efficiency of LEDs? This stuff absorbs light. It seems to me like it would only be able to make things darker, not lighter. I'm willing to accept I just don't get it... but what is it that I don't get?

    --
    "You're right," Fisheye says. "I should have set it on 'whip' or 'chop.'"
    1. Re:For Energy-Efficient LIGHTING? by 140Mandak262Jamuna · · Score: 4, Informative
      I did not read either the summary or the fine article, from what I heard on NPR, this coating improves the signal to noise ratio of communications. Sort of like talking in an anechoic chamber versus a room with highly sound reflective walls with booming echos.

      This is how I would explain it. All these reflections are really echos of light. And when a pulse of light is fired along the fiber, it gets reflected at many interfaces, travel backward, gets reflected again and travels forward etc. Thus the single transmitted pulse arrives as multiple pulses of varying strengths and varying time differences. When a series of pulses are fired, at somepoint the echos completely overwhelm the signal. The anechoic coating will help communication, stealth aircraft etc. It might find applications in improving solar cell efficiency. But might not make your light bulb any brighter.

      --
      sed -e 's/Chuck Norris/Rajnikant/g' joke > fact
  7. Oh my... by keeboo · · Score: 3, Funny

    Reflectivity Reaches a New Low

    Just when you started to think it couldn't get worse...

  8. Link to abstract by kmac06 · · Score: 3, Informative

    Here's a link to the abstract. Don't think you can get the full article without some sort of subscription.

    Anti-reflection coatings are nothing new. Their used all the time in optics. What's new about this acts as a broadband anti-reflection coating. If this can be transferred to commercial production it would have a huge impact on optical equipment.

  9. Re:Refractivity? Or Reflectivity? by pclminion · · Score: 5, Informative

    Refraction and reflection are closely related. Light reflects when it strikes a discontinuity in index of refraction. If the IOR is made to vary smoothly, on the other hand, light will not reflect. And that's exactly what they seem to have done here.

  10. Use for this stuff by ksd1337 · · Score: 3, Interesting

    I think they should coat television and computer monitor screens with this material. This will help to see the image being displayed, since there will not be any glare to obscure the image.

  11. Re:Oh crap.... by zcat_NZ · · Score: 3, Funny

    "absolut transparency" ?

    --
    455fe10422ca29c4933f95052b792ab2
  12. Well.... by kaizenfury7 · · Score: 3, Funny

    Me at a night club in the corner sipping my Jolt with my penguin shirt has even lower reflectivity. No one even knows I'm there. And that's with a _clean_ shirt even.

  13. Sorry, wrong: by Ungrounded+Lightning · · Score: 4, Informative

    ... isn't the illusion of water on the road a product of light reflecting off of the air?

    No.

    It's caused by the curvature of light refracted by the difference in refractive index between the hot air near the sun-heated surface and the cooler air above it. The light bends back up without "touching" the underlying surface.

    You only get a little bend. This is why you need a very hot surface to get enough of a bend to be visible at all. It's also why you only get it at large distances, where the line of sight is nearly parallel to the ground.

    It looks like water because you look at the ground and see a a region of like of the sky's color, shimmering due to convection current - generated patches of uneven refractive index in the air rather than surface ripples.

    --
    Bantam Dominique roosters crow a four-note song. Once you've heard it as "Happy BIRTHday" you can't NOT hear it that way
    1. Re:Sorry, wrong: by hotdiggitydawg · · Score: 4, Funny

      ...or, it's caused by actual water on the road.

  14. Actually, I was thinking... by vought · · Score: 3, Funny

    "My ex must have had a mirror made of this shit!"

  15. Re:Refractivity? Or Reflectivity? by fizzup · · Score: 5, Informative

    There is reflection at a dielectric boundary. A dielectric is something that is not a metal, like glass. If you focus your eyes on a window, you can see a reflection of yourself because air and glass are dielectrics with different indices of refraction.

    The amplitude of the reflected light wave for light that strikes perpendicular to the dielectric boundary is (n1 - n2)/(n1 + n2) - the "n's" are indices of refraction. For a boundary between air and this stuff, the reflection is (1.05 - 1.0) / (1.05 + 1.0) = (0.05/2.05) = 1/41. Compare with glass, with an index of 1.4: (1.4 - 1.0) / (1.4 + 1.0) = 0.4/2.4 = 1/6. (The difference in intensity is the square of this, though, which diminishes the difference.)

    The equation for non-normal incident light is more complicated*, but even light that is a long way off normal incidence reflects by about the same amount. It's only when you start approaching 90 degrees off normal that a dielectric boundary starts reflecting lots of light. Try it with a large window pane: you have to get your head right up there and view something with a glancing reflection to see it clearly.

    They're saying that they can coat a semiconductor, like an LED or a photovoltaic cell, with this stuff. Then about (1/6 - 1/41) more light either strikes the PV, or leaves the clear stuff that surrounds the LED.

    This will not work as well as a magnesium fluoride coating for lenses, though. That kind of antireflective coating relies on destructive interference with the reflected light from the two dielectric boundaries, which is why they only work at a certain wavelength.

    * Google "reflected light at a dielectric boundary" for the gory details.