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Harness energy from Bubble Fusion?

Does anyone know how you'd harness the energy from Bubble Fusion? It doesn't make sense to me naturally since the liquid that the cavitation is taking place in is kept at room temperature and fusion is theoretically contained entirely inside the collapsing bubbles. That's something I've never seen addressed in any article on Bubble Fusion that I've read. It'd be a nice addition to the piece.

Well the heat generated by fusion is absorbed by the water, but the amount of fusion that actually goes on is very small.
"If you were to tile the world with these devices and let them run for an hour, there'd be enough thermonuclear energy to heat a cup of coffee 1 degree," Moss told UPI. "The likelihood that you could produce energy you could use is very, very slim -- but I'm not saying zero." [1] - Omegatron 13:27, Apr 13, 2005 (UTC)
The interest at this time is mainly scientific, and I seriously doubt if it can ever be scaled up. However, from Nuclear fusion we have the easiest fusion reaction:
(1) D + T   4He (3.5 MeV) +   n (14.1 MeV)  
Most of the energy is in the neutron, which will escape the device.  :pstudier 19:30, 2005 Apr 13 (UTC)
I always wondered if it could be scaled down. They say the diameter of the bubble is ~100 µm or so max. I envision millions of little spherical tanks etched into an integrated circuit running in parallel. From the waveforms and videos I've seen, it looks like the bubble actually wants to resonate at a higher frequency, in the MHz or so (slow-mo video). Which would mean... on the order of a millimeter diameter tank. So I guess not millions...
But what do I know? I'm sure my imagination is about as true to real science as Chain Reaction. - Omegatron 21:20, Apr 13, 2005 (UTC)

I'm really not confident to include this in the article itself, but I wonder if someone could take the information from the BBC Horizon documentary broadcast on 17/2/05 and incorporate it into the article. They got Putterman to attempt to replicate the exiperiment, but he failed to detect any fusion neutrons. (See: http://www.bbc.co.uk/sn/tvradio/programmes/horizon/experiment_prog_summary.shtml)

The movie Chain Reaction, while discussing sonoluminescence, did not directly address fusion. Instead, the scientists were pursuing a cheap method of producing gaseous hydrogen. The centerpiece explosion of the movie was an explosion of hydrogen gas, not a nuclear explosion.


Reply: This is true. Putterman, an expert in sonoluminescence, was commissioned along with an independent expert in nuclear fusion detection, to thoroughly study the claims of R. Taleyarkhan. With help from Brian Naranjo, another sonoluminescence expert, the group concluded that no evidence of nuclear fusion could be found using the techniques of Taleyarkhan, and that he was simply misinterpreting the by-products of radioactive decay from lab equipment for the by-products of fusion. If you attend a soft condensed matter Physics conference, every expert outside of Taleyarkhan's group (regardless of their affiliation) will tell you that Taleyarkhan's group got it wrong, but that sonofusion is still a theoretical possibility that we may see at some point in the future.


—————

I encourage the authors of this Wikipedia entry to take a look at some of the new sonoluminescence results which are the antecedent of this article:

http://www.physlink.com/News/030805CollapsingBubbles.cfm

They've confirmed that the surface of these collapsing bubbles are four times as hot as the surface of the sun. This does seem to confirm that the inside of the bubbles really may be as hot as the center of the sun.

To pick a nit, the surface of the sun is 5780K, its center is probably many millions of degrees. If the bubbles were this hot at the center, they would be emitting easily detected X-Rays. Interesting story, if I have time later, I will incorporate it into the main article. pstudier 19:24, 2005 Mar 12 (UTC)

Reply to above: No, you cannot detect any of the X-ray radiation because these photons are quickly abosrbed by the surrounding fluid and do not reach your detectors. You would need to have a detector in the fluid itself and very close to the collapsing bubble on top of this. As of 2006, this would be a very difficult engineering problem and/or require more funding to accomplish than most of these small sonoluminescence/cavitation groups are being given.


:-)

http://www.impulsedevices.com/index.html - Omegatron 19:42, Mar 28, 2005 (UTC)

Rename?

Sonofusion seems to be the dominant term in use, especially in the literature. Should the article be renamed? Rei 20:29, 20 December 2005 (UTC)[reply]



The RPI links do not work. Besselfunctions 01:34, 20 November 2005 (UTC)[reply]

Successful sonofusion experiment, Jan 2006

http://physorg.com/news10336.html indicates that there was a successful sonofusion experiment, but I know way too little about this topic to update the Wikipedia article. Somebody who understands this should read the article and make appropriate changes, i.e. change the part about this being only "hypothesized".


Reply: This is not true, as every single sonofusion experience to date that has claimed to be "successful" has later been shown to be incorrect or a misinterpretation of the data. While it isn't *theoretically* impossible to achieve sonofusion, noone has actually done it yet (every time a new claim is made, the experts either immediately see why the claim is incorrect OR many expert groups try to reproduce the results that are claimed and cannot).

Cleanup needed

This article need neutralization and cleanup (maybe starting with the very long list of external links, which appear to include many irrelevant links). ---CH 11:10, 25 May 2006 (UTC)[reply]

As an example, the Patriot media anon near Bronx, New York just added a link to a news release from Pure Energy Systems News (PESN), which tends to be too credulous to be a reliable source of information.---CH 20:26, 16 June 2006 (UTC)[reply]

This article needs to be more neutral. The experimental results are under review by Purdue University. Comments on the review should wait until the completion of the review. In any case the scientific method should be followed and not the political method.--Ron Marshall 21:20, 5 June 2006 (UTC)[reply]

Ron, can you clarify? I can't even tell whether you agreeing with what I said or disagreeing. What do you mean by "political method"? ---CH 20:28, 16 June 2006 (UTC)[reply]

Ron, sonofusion is theoretically possible if the collapse of the bubble can be enhanced/optimized. This is why sonofusion research is given credibility. The problem is that noone has yet optimized the caviation process to achieve sonofusion. If you talk to the experts in this field (Willy Moss, Ken Suslick, Seth Putterman, Brian Naranjo, Robert Apfel, etc, etc), all of them, no matter where they are from and who they are affiliated with, will tell you that sonofusion isn't impossible and they would *love* to see it achieved, however they will also all tell you that it has yet to be accomplished and that every single group (mainly Taleyarkhan's) that has claimed to observe sonofusion made a mistake in interpreting their data.