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MIT Develops Nanoruler

Posted by Hemos on from the just-a-little-somethig-on-the-side dept.

Makarand writes "MIT Researchers have developed a device to make the most precise rulers - the Nanoruler, whose "ticks" are mere nanometers apart. The Nanoruler can pattern gratings of lines and spaces more accurately than other methods across large surfaces more than 12 inches in diameter, a capability important to a number of applications like preparing larger wafers for the production of computer chips and higher-resolution space telescopes. The Nanoruler works by using interference lithography where two laser beams interfere with each other to produce interference "fringes", or parallel planes of high and low light intensity. These fringes are then recorded onto the surface as lines and spaces using the same techniques used for tracing circuits onto silicon."

9 of 24 comments (clear)

  1. What we need now... by Anonymous Coward · · Score: 2, Funny

    [read title] ...is the nano slide rule.

  2. Patent pending? by Anonymous Coward · · Score: 2, Interesting

    If NASA and DARPA funded it, why shouldn't it be released public domain?

    1. Re:Patent pending? by Anonymous Coward · · Score: 2, Insightful

      It should be patented, with a portion commensurate to the proportion funded by the government going into a fund for general research.

    2. Re:Patent pending? by YetAnotherAnonymousC · · Score: 3, Informative

      Generally the way it works with DARPA is that the inventing university can patent their invention. The university may exercise their patent rights however they like with one exception: the defense department has the right to use the invention however they like.

  3. to paraphrase the cliche: by LittleBigLui · · Score: 3, Funny

    I, for one, welcome our new nano-rules!

    --
    Free as in mason.
  4. Ha! by wafwot · · Score: 5, Funny

    Now the Nanonuns can show them disrespectful Nanocatholics some discipline!

  5. Other idea using light by Gamasta · · Score: 2, Interesting

    For some time I wondered about the possibility of using a Michelson & Morley interferometer for measuring distances. You can get 250 nanometer of precision easily, just count those rings. Using shorter wavelengths, it can get a lot better. But never tried putting such idea to work. (most probably someone else thought about this too...)

    --
    reason defies logic
  6. Hundreds of nm apart by SiliconEntity · · Score: 5, Informative

    While the precision of the grating is to within a few nanometers, the actual spacing is hundreds of nanometers, or equivalently, tenths of microns. That's not all that small compared to the .13 or .09 micron processes currently used in Pentium and other high end chips.

    The key to the grating is not how fine it is, because it's not, but how accurate it is over such a large scale. It's not nanotech, but a very precise microtech.

  7. Finally! by NanoGator · · Score: 4, Funny

    They can now measure the size of your...

    Man I wish I could think of something more original than that. MORE COFFEE!

    --
    "Derp de derp."