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Ultra-Dense Optical Storage on One Photon

Posted by CowboyNeal on from the smart-particles dept.

Andreaskem submitted this story about researchers being able to encode an image into a photon and to later retrieve it intact. From the article: "It's analogous to the difference between snapping a picture with a single pixel and doing it with a camera — this is like a 6-megapixel camera... You can have a tremendous amount of information in a pulse of light, but normally if you try to buffer it, you can lose much of that information... We're showing it's possible to pull out an enormous amount of information with an extremely high signal-to-noise ratio even with very low light levels."

10 of 139 comments (clear)

  1. To Clarify by logicnazi · · Score: 4, Informative

    The Image is NOT encoded into one photon, at least not in a way that can be extracted again. Each individual photon is in a superposition of having gone all the possible paths and the set of those possible paths is the information to be extracted but when measured each photon will only reveal a small amount of information so it is only in the aggregate (by measuring lots of photons) that the initial image can be reproduced. At least this is what the article sounds like it is saying it wasn't very clear.

    In fact it is probably best to think of this without quantum mechanics at all. What they did is pretty much like figuring out the shape of an object by shooting BBs at it and looking at which ones make it past the object.

    The part that is supposedly new and interesting is the way they collected the photons at the other end. It didn't seem very clear on this but apparently by catching many of the photons in their device at one time it made it much easier to decode the image in the light.

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    1. Re:To Clarify by drerwk · · Score: 4, Informative

      Parent is right - article is not particlely clear.
      By itself a photon can be described as having, location, and energy. Thanks to Heisenberg you can only know so much about location and energy at the same time. I don't recall what property fails to commute with spin, maybe time? But the total information in a single photon is at best 3 reals for location, a real for energy, and an imaginary for spin.

    2. Re:To Clarify by mastershake_phd · · Score: 3, Informative

      In fact it is probably best to think of this without quantum mechanics at all. What they did is pretty much like figuring out the shape of an object by shooting BBs at it and looking at which ones make it past the object.

      You mean like a X-Ray.

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    3. Re:To Clarify by Andreaskem · · Score: 3, Informative

      "To produce the UR image, Howell simply shone a beam of light through a stencil with the U and R etched out. Anyone who has made shadow puppets knows how this works, but Howell turned down the light so much that a single photon was all that passed through the stencil."

      The article as a whole might not be very clear, but this line says that only a single photon passed through.

    4. Re:To Clarify by Beryllium+Sphere(tm) · · Score: 2, Informative

      >don't recall what property fails to commute with spin, maybe time?

      Spin in the non-measured axes.

      Time pairs up with energy: if you look at a really fine time scale, energy is so uncertain that there's a sea of particles (m == E / c**2).

    5. Re:To Clarify by CharlesEGrant · · Score: 5, Informative
      rom what I can gather the important part of the article is that they have been able to slow down each photon in order to buffer it.
      The original press release is very poorly writen. A better article is in the Washington Post. Also, the title of the actual peer-reviewed article is on Howell's publication page as "All-optical delay of images using slow light" Ryan M. Camacho, Curtis Broadbent, Irfan Ali Khan and John C. Howell, Phys. Rev. Lett (in press). As you say, the centeral acheivement is in their ability to slow down the photons. Unfortunately the actual paper doesn't yet seem to be available as the Phys Rev Letter website. I think the business of encoding an image on a single photon is a confabulation by the author of the press release.
  2. Incorrect summary by forand · · Score: 3, Informative

    Both the poster's summary and the news release are incorrect. You cannot encode more information than quantum numbers on any quanta, it is not possible. I believe that another poster has a plausible explanation for what is actually going on: that they measure many photons and reconstruct the information by knowing the possible paths which do the encoding of information.

  3. Better coverage ... by CharlesEGrant · · Score: 2, Informative

    I suspect the original press release and the articles on Science Daily and PhysOrg are FUBAR. I think an article in the Washington Post is probably more accurate. Unfortunately the Phys. Rev. Letter web site doesn't seem to have the actual paper publicly available yet.

  4. Re:Links to the researchers by Richard+Kirk · · Score: 3, Informative

    In about 1968, IBM had an optical memory where about 2 Km of optical path was folded into something the size of a filing cabinet using mirrors, and 1 bit was circulating endlessly. Optical fibres transparent enought to do this did not happen for years. This geta a brief mention in... http://www-03.ibm.com/ibm/history/history/year_196 8.html

  5. The Same News Story Twice on /. In Two Days by Pooua · · Score: 2, Informative

    I just wondered if anyone noticed that this news story is exactly the same as the one /. posted under the heading, Slow Light = Fast Computing, on January 19?

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