New Zealand Scientists Make Atom-Trapping Breakthrough 101
Mogster writes with this news from New Zealand: "'University of Otago scientists have made a 'major physics breakthrough' with the development of a technique to consistently isolate and capture a fast-moving single atom. A team of four researchers from the university's physics department are believed to be the first to isolate and photograph the Rubidium 85 atom.' Good to see Kiwis following in Rutherford's footsteps."
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The good news is I went and found it, the bad news is it's probably not as cool as I'd hoped: http://www.scoop.co.nz/stories/ED1009/S00122/university-of-otago-atom-breakthrough-represents.htm [scoop.co.nz]
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damn kiwis! (Score:2)
Now where's that chisel?
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Photographs of trapped single atoms abound; they're just not that interesting. The atom will scatter light from the trapping beams and the scattered light can be easily imaged onto a camera. In fact, imaging is often used to characterize the trap. The atom just shows up as a blurry dot with the size of the blur being determined by the diffraction limit of the light or perhaps the tightness of the confinement. There's certainly no internal structure that would be resolvable.
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I couldn't find an article to the original article, but this article has the picture that I was searching for anyhow, which shows a "net" of Germanium atoms on an ink blot.
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In a major physics breakthrough with international significance.......
And thought it was strange that they were excited about doing something with 'international significance.' Whereas here in the states, I'm wishing fewer things happened with 'international significance.'
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Even better, with the megapixel races going on, every P&S made will soon be able to resolve down to the atomic level!
- - - if only lenses ever catch up to advances in sensors.
Speed of sound (Score:3, Informative)
FTFA: "Atoms usually move at the speed of sound, making them difficult to manipulate."
It's not quite as simple as that.
Sound [wikipedia.org] moves at the speed of sound, not atoms. Sound is a perturbation in the medium and is not always directly related with the speed of the particles. A simple experiment: bang a railroad rail with a hammer. The sound will travel at 6000 meters per second along the rail. Observe the rail: is it moving at 6000 m/s? I don't think so.
In a gas, [wikipedia.org] the statement about the typical speed of an ato
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Observe the rail: is it moving at 6000 m/s? I don't think so.
The atoms in a solid are constantly moving just like the atoms in a gas. The difference is that they primarily vibrate in-place rather than being able to freely move about.
Now whether or not their typical speed is also about the speed of sound ... that I do not know. But your statement was the equivalent of “The sound will travel at N meters per second through the gas. Observe the gas: is it moving at N m/s?”
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That is pretty damn cool, actually!
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I wanted to see a photograph of an atom.
The good news is I went and found it, the bad news is it's probably not as cool as I'd hoped...
Well, what did you expect a photograph of an atom to look like?
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I know, unrealistic, but that's what I was hoping for in my mind's eye.
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The good news is I went and found it, the bad news is it's probably not as cool as I'd hoped
Very convenient, they took the photo of a galaxy and called it an atom.
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Nope!
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I have it on good authority that the photograph in question is not the wily Rubidium atom, but the lazy and commonplace Strontium atom. You can tell by the interference pattern.
['tis a joke, for the humor-impaired]
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Soon they'll be trying to split the beer atom...
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Method (Score:3, Interesting)
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Next time, could you just post the entire article so that we don't have to read multiple posts by people who choose to quote only one line at a time while adding no additional value?
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Ouch. I posted the one line because I felt it added value, namely the actual method used that the summary neglected to include. I read 5 different articles covering the story and chose the most detailed one to slap up here - which points really to the scarcity of technical detail if nothing else. I'm sorry you don't like the contribution but claiming it adds no value is going a step too far.
It would have been great had you included something along those lines. I tend to actually RTFA, so just slapping up a single line with no context around why you're quoting it doesn't add value for me. I know, it's not all about me but I can only speak for myself when sharing my opinion.
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Incidentally, reading the article totally defeats the point - how are we supposed to work ourselves into a frenzy of anti-(somewhat tangentially related topic) if we bind ourselves with facts? For shame good sir, for shame.
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Next time, could you just post the entire article so that we don't have to read multiple posts by people who choose to quote only one line at a time while adding no additional value?
Clearly, someone thought it had value. It got modded to (Score:3, Interesting).
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Clearly, someone thought it had value. It got modded to (Score:3, Interesting).
There's a ringing endorsement if I've ever seen one.
I'm Uncertain (Score:5, Funny)
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Well it looks like Maxwell's Demon is finally out of work. Worst recession in history. Even Demons can't keep their day jobs.
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Here is a video of it in action...
http://www.youtube.com/watch?v=LPkUvfL8T1I [youtube.com]
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Here is a video of it in action...
http://www.youtube.com/watch?v=LPkUvfL8T1I [youtube.com]
Seriously mods? Off Topic? Grow a sense of humor...
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Is the photograph life size or something? (Score:5, Funny)
Because I couldn't see it..
Re:Is the photograph life size or something? (Score:5, Funny)
Because I couldn't see it..
Cool! It's a next-generation SPACER.GIF!!
I'm sending a memo to corporate right now:
"Beginning immediately, all references to SPACER.GIF on the toofuckinghipformymother.com website will be renamed to 'Rubidium85.GIF'. This use of quantum technologies and cutting-edge physics should improve performance by at least 134% and promises an ROI of 7 or more. We estimate that the transition can be completed by Q1 2012 using our existing development resources, or by Thursday if we replace the bonobo with a human."
Free the Rubidium 85!!! (Score:4, Funny)
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I only eat Free Range Rubidium 85
Re:Is the photograph life size or something? (Score:5, Informative)
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I could see it, but I didn't know where it was.
For the Australians out there.... (Score:1)
not until.... (Score:3, Funny)
When they can pluck one out of mid air with a pair of chop sticks, i'll be impressed.
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Beginner's luck, Daniel San.
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don't worry about the quantum computing fanatics... they're working under the assumption that interlinks can be designed which add absolutely no latency. you don't seem to realize the possibility of accomplishing such a task.
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Not quite the best description of their work (Score:5, Informative)
What is important about this experiment is how often they can trap a single atom. Previous experiments have shown that creating a small trap volume and using atomic collisions allows for a 50% probability. (This is the regime our experiment is currently trying to work in) Their work showed that it is possible to exceed this using fairly simple techniques. There are also more complicated theoretical methods which various groups are trying to demonstrate as well. I believe they have reported >80% probability of loading a single atom into their trap. This increased probability is not completely necessary for scaling atomic quantum computers but will help. If they can achieve a probability close to 1 then this would help greatly. For instance with the old well established techniques I would make an array of 100 trapping sites but only expect to have 50 usable qubits loaded during any one experiment. This would now give us the ability to say we have more than 80 usable qubits for every experiment, which just helps scaling the quantum computer to useful sizes easier.
I would be quite surprised if this was the first time that single Rb 85 atoms had been trapped and imaged. We have been using single Rb 87 atoms in our experiments since about 2005 and other groups had been doing it before us. Switching to Rb 85 would take us about 15 minutes as the only required change is a frequency change of ~2 GHz for our two cooling lasers.
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Possibilities for energetic particles? (Score:3, Interesting)
This seemed to be geared toward quantum computing, but I was wondering if the same technique could isolate a significant mass of highly energetic matter, e.g. newly created antimatter? We've only been able to capture an almost negligible fraction of that so far.
Re:Possibilities for energetic particles? (Score:4, Informative)
The work is related to trapping single, neutral atoms efficiently. Trapping techniques for bulk quantities of charged particles tend to be simpler. Slowing down energetic particles is probably tough, but doesn't relate to this research.
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This seemed to be geared toward quantum computing, but I was wondering if the same technique could isolate a significant mass of highly energetic matter, e.g. newly created antimatter? We've only been able to capture an almost negligible fraction of that so far.
This is not because it is hard to capture, but because it tends to annihilate upon contact with ordinary matter. So if you put it into a trap it will slowly vanish unless your vacuum is very pure.
Not to say it is not used - Tevatron [wikipedia.org] collides proton and antiproton beams, so not only it produces significant quantity of antimatter, but it is used as a consumable for researching something else (which is likely Higgs)
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your turn...
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Neutron: Are you sure?
your turn...
Proton: I possess a charge greater than zero! Hey, electron... why do you look so sad?
McBain! (Score:1, Offtopic)
Up and at them!
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Up and at them!
Picture? (Score:2)
Pictures or it didn't happen.
Turns out much like James woods (Score:5, Funny)
Only a Rb atom? (Score:2, Funny)
Do it with a Photon and I'll be impressed.
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No, no, do it with a Phonon and I'll be really impressed!
Reminds me of Jezzball (Score:2)
Reminds me of an RL version of JezzBall - my, the Windows Entertainment Pack games were/are addictive little buggers. :)
Gotta pay up (Score:3, Funny)
All that experience isolating and capturing a single fast-moving sheep gotta pay up...
What a Great Aussie Breakthrough! (Score:2)
> New Zealand Scientists Make Atom-Trapping Breakthrough
As a proud loud Australian I claim Mikkel Andersen as Australia's favourite son! Come on over matey. I also claim "Lord of the Rings" as one of Australia's greatest movies and "Crowded House" as our greatest band (hey... nothing since the 80's sounds right anyway). And that Kiwi who discovered the relationship between steroids and lung activation that must have saved a million premature babies... we own him too.
http://www.guardian.co.uk/society/2010 [guardian.co.uk]
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You can have them as long as you take Russell Crowe too ;)
Trying to understand this... (Score:2)
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