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Silicon Buckyballs = Quantum Bits?

Posted by timothy on from the unceasing-wonders dept.

nachoworld writes: "Scientific American has reported that buckyballs have been made from silicon instead of carbon. Because the Si-Si bond is weaker and longer than a C-C bond, silicon was thought to be unable to form a buckyball-like structure. But Hidefumi Hiura and colleagues at the Joint Center for Atomic Research in Japan have been able to create a buckyball with a stabilizing tungsten core. Granted this core changes the properties of the Si buckyball, but Hiura suggests that they may serve as excellent quibits, which store single bits of information in quantum computers. The spin state of the metal atom could encode the bit, and the silicon cage would protect it from corruption."

11 of 101 comments (clear)

  1. Beverly Hills rejoices! by drin · · Score: 5

    And suddenly the plastic surgeons had a much more powerful tool than previously available... one large buckyball in each breast, and voila! Buckyboobs!

    (I know, it's silicon, not silicone, and it's definitely not saline, but I couldn't resist...)

  2. Big research in this area. by DavidpFitz · · Score: 3
    People at CMU Their main interest is with Carbon-60 -- but they do work with other molecules such as samarium-cobalt, neodymium-iron-boron, cobalt-boron-silicon, tungsten carbide, silicon carbide, europium and gadolinium. They're right at the cutting edge, experimenting with all minds of materials that show any promise.

    It seems a little like supersonductors... you just have to keep trying new materials.

    There is a good article about BuckyBalls from First Science here as well.

  3. How do the plan to read the spin state? by tcd004 · · Score: 3
    Can you imagine how delicate a processor of this nature would be. I would expect that the tiniest magnetic field could potentially disrupt the entire process. If we're talking quantum computing, then the spin state can represent a near-infinite number of positions, correct? If this is the case, the slightest fluxuation in the spin state would cause data-corruption.

    However, this is purely based on assumptions. I could be completely wrong. I still do math using my 10 fingers.
    tcd004 The heart of the Pentium 4!
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  4. Re:stupid q: but WHat IS? by lithis · · Score: 3

    a buckyball is a specific arrangement of atoms so that they form a sphere (like a geodesic dome). they're named after r. buckminster fuller.

  5. Re:stupid q: but WHat IS? by Chakat · · Score: 4

    A buckyball is the short name for the molecule given the name Buckminsterfullerine. This molecule usually consists of pure carbon and is spherical shaped. The molecules got their name from their resemblance to the geodesic domes of Buckminster Fuller (think soccer balls). Some of the interesting properties are that these molecules are superstable, and one of the things they're thought they'd be useful in is nuclear waste storage.

    --

    If god had intended you to be naked, you would have been born that way.

  6. Quantum spin in buckyballs by nqp · · Score: 3

    The remarkable thing about nuclear quantum spin is that it is very weakly coupled with the enviroment. Relaxation times (how long the spin takes to dissapear) is on the order of 100's of milliseconds in many materials.

    In this material it may turn out that nuclear relaxation times are of the order of hours ?? (in noble gases you can get relaxtion times of many minutes) due to the shielding of the nucleus from the enviroment by the silicon cage.

    The nice thing about single-quanta systems (i.e. a single atom) is that it is in a definite state. A spin-half system is has only two states (read 1 or 0 ). (Im not sure what spin the Tungsten nucleus has). As long as you "refresh" the spin before it relaxes with the enviroment (decays) you can use it like ordinary memory, but obviously at much higher densities...

    This Silicon cage is not really like fullerine which I think had 60 carbon atoms in a geodesic dome arrangement ? anyone know

  7. More promising qubits by TeknoHog · · Score: 4
    Superconducting loops with Josephson junctions seem much more promising candidates for quantum bits, where the 0 and 1 states are represented by opposite currents. Quantum superpositions of these currents - can you imagine current flowing both clockwise and anticlockwise simultaneously! - have been observed in numerous experiments, some (technical) links are here and here.

    The difficult part is that superpositions, which are the key requirement of qubits, are inherently destroyed when measurements are made. But some experiments, like the above, manage to sustain the superposition for a significant time, because the system is only weakly coupled to the measuring instruments.

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    --
    Escher was the first MC and Giger invented the HR department.
  8. FYI: Physics Review Letters Reference by nickdog · · Score: 5

    The original PRL article is Hiura et. al. Volume 86, No. 9 pp. 1733-1736. Some may have access to PRL online at: http://prl.aps.org/ This is a little more technical, but still worth a look.

  9. Re:stupid q: but WHat IS? by IainMH · · Score: 3

    C60 was first discovered by some chaps studying interstella chemistry/chemical physics. One of them Prof Harry Kroto had the bright idea of placing two carbon rods end to end in a vacuum a very small distance apart and putting a massive potential difference across them which yielded an arcing effect. They shoved the resultant black dust into a mass spectrometer and found massive peaks at 60 (x12) and 70 (x12) units. At first this was dismissed as contaminants, but then Kroto had the 'falling of the toilet and imagining the flux capacitor moment' of thinking about the Geodesic sphere created by R. Buckminster-Fuller at the Montreal expo 67 to which he went with his son.

    It was first isolated, by putting the black dust in benzene (J. Hare - then a research student of Krotos did this) which yielded a red solution that when dried yielded red C60 crystals.

    An explosion of research happened around the world, most notibly from the UK (Sussex Uni - guess where I studied :-)) Japan, and the US.

    There is loads of stuff on the web, and in a wierd way this is what got me into computers... Looking for papers 3 years ago turned me back to computers after I left them when my Amiga got packed away.... Then I realised that Chem grads got about 14,000 gbp a year in their first few years in Chem, and I was way too mercenry for that! :-)

    (Ex Chem geek)

  10. You Too Can Create Buckyballs! by searleb · · Score: 3

    Now, with an arc welder and a two sticks of graphite, you too can create buckyballs!

    Isolating them is an entirely other beast, though.

  11. Not like you'd think by Queueless · · Score: 3

    In quantium computing radio waves are used to affect and read the qubits. Something like a MRI machine. The "value" of the qubit is determined by the inference pattern created by the qubits when they are zapped with radio waves.