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New Material for Spintronics Discovered

Posted by CmdrTaco on from the science-is-cool dept.

Cpt_Corelli writes "Researchers at Uppsala University and the Swedish Royal Institute of Technology have discovered a new material with properties suitable for creating spintronic devices at room temperature. Previously this was only believed to be available at very low temperatures. The material is a combination of zinc oxide and manganite. The breakthrough is the cover item of the October issue of Nature Materials. If this new material proves viable for production there is an enormous potential for smaller and faster processors. Could this be the beginning of a new era in processor development?"

8 of 225 comments (clear)

  1. Spin Doctors by heironymouscoward · · Score: 5, Informative

    In English: using the spin on individual electrons as a way of storing data.

    Incredible, really. I could store the Library of Congress in the LCD pixels represented by this: .

    Several times, I suspect.

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    Ceci n'est pas une signature
    1. Re:Spin Doctors by QuantumFTL · · Score: 5, Informative

      Disclaimer: I'm just about done with my bachelors in Physics.

      In English: using the spin on individual electrons as a way of storing data.

      One of my physics professors here at Cornell does a lot of heavy spintronics research, and I can tell you that they are not even *CONSIDERING* using single electron spins to store classical information right now. Forget all the crazy quantum effects, and the fact that all the electrons nearby would interfere horrendously thorugh spin-spin interactions, thermal energy would screw that up in a jiffy. Think what happens to a magnet when it's heated up to the curie temperature (electrons are just tiny magnets). We don't even have a way to accurately measure the spin of one exact electron yet.

      As I understand it, the idea is actually pretty simple: instead of propagating electrical signals in a stream of electrons by altering their momentums (through the use of an EM field), you propagate a change in spin along the stream. Instead of speeding up or slowing down electrons, you're only flipping them up and down (you're actually flipping entire regions at that). Because of hte spin-spin coupling I mentioned before, this change in spin will propagate through the group of electrons *VERY* rapidly, much closer to the speed of light than a change in momentum would (by changing voltage, etc). So what we have is *MUCH* higher switching speeds with hardly any energy loss! So basically you have ultra-high speed chips that dissapate very little energy. Forget that watercooler in your laptop, you might not even need more than a tiny battery once spintronics becomes popular.

      Now, as with any technology spintronics has its set of challenges. The biggest one that I am aware of is the ability to inject spin properly when electrons are moving between different materials. Many crystaline structures can alter the spin state significantly on entry, thus destroying the signal (or at least reducing it). I am confident, however, that many of these problems can be solved, especially given that spintronics is provably much better than electronics for computing tasks. Just look at the enormous number of problems the semiconductor industry has already solved in the last 40 years. Add to that the hope that all of this could work at room temperature, and well, it's very exciting to say the least.

      So once again, we're not talking about individual electron spin. The only computing paradigms I'm aware of that use spin of individual particles are Quantum Computers (which do not behave the same algorithmically as classical computers) which are an entirely different story.

      Cheers,
      Justin

  2. Bad joke of the day by xaoslaad · · Score: 5, Funny

    Does that make the people who discovered this Spin Doctors?

    whacka whacka whacka

  3. In abstractio by Seehund · · Score: 5, Informative

    Does posting a link to the Nature Materials abstract count as karma whoring, when there's maybe only three people here who would understand what it says? ;)

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  4. 50Ghz processors... by MosesJones · · Score: 5, Interesting


    Here we come, won't that be great. 10Mfps in Quake4D, milliseconds from start to crash in windows.

    But still connected to a low bandwidth connection (2Mbps) to an unreliable network with high contention rates and collisions.

    Fast processors ceased to become something to get excited about since about 1999, 90% of people don't need them, 8% need more memory instead, and the final 2% do nuclear and climate simulations, work in industrial modelling, or SFX and animation.

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  5. A pedant writes... by Hittite+Creosote · · Score: 5, Informative

    Md-doped means Manganese doped, not Manganite. Manganese is an element, Manganite is a mineral, MnO(OH).

  6. Re:So this means.... by MoP030 · · Score: 5, Funny

    No, it means when the benefits of spintronics have been exploited research will proceed to store information in quarks and whatever lies beneath, data transfer will be instantaneous through some weird particle entanglement. And someone will say "6*10^23 bits inside a few grams of silicon will be enough for everyone", and few years later he will be laughed at.

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  7. Slashdot effect on electricity?? by locknloll · · Score: 5, Funny

    At the moment (2:30 PM CET) Southern Sweden is without electricity due to a giant power failure. So either this discovery already starts showing its evil consequences, or the Slashdot effect now reaches further than just web sites...

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    -- Power corrupts, but PowerPoint corrupts absolutely.