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Power Science Technology

Room-Temperature, Small-Scale Fusion at UCLA 448

gnuman99 writes "A UCLA collaboration (Seth Putterman, Brian Naranjo and Jim Gimzewski) appear to have developed a fusion device powered by a pyroelectric crystal, a type of crystal used in cell phones to filter signals. When heated, such a crystal produces a large electric charge on its surface. The UCLA researchers placed a lithium tantalate (LiTaO3) pyroelectric crystal so that one side touches a copper disc. A tiny tungsten probe is then placed at the center of the copper disc. When the crystal is subsequently heated, a very large large electric field is produced at the end of the tugsten tip, ~25 billion volts per meter. This field gradient is so high that it strips the electrons from nearby deuterium atoms. The ionized deuterium atoms then accelerated by this field towards a solid target of erbium deuteride (ErD2). They collide with it at such high energies that some fuse with the target. A measurement of almost 900 neutrons per second was observed. This is 400 times the background! Although the amount of energy produced in this initial experiment was miniscule (~1E-8 jules), this technology could be used for things like microthrusters. There are pictures and movies on the UCLA's physics site." Reader richmlpdx adds a link to coverage at MSNBC.
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Room-Temperature, Small-Scale Fusion at UCLA

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  • Potential Uses (Score:5, Interesting)

    by Skyshadow ( 508 ) * on Wednesday April 27, 2005 @03:32PM (#12363974) Homepage
    Quoth the MSNBC article:
    ...the technique could have potential uses in medicine, spacecraft propulsion, the oil drilling industry and homeland security

    So what they're saying is that this technology just happens to have potential more or less exclusively in areas populated by companies/agencies that have a lot of money floating around for research grants, eh?

    What a stroke of luck!

    • Re:Potential Uses (Score:5, Interesting)

      by mmkkbb ( 816035 ) on Wednesday April 27, 2005 @03:34PM (#12364016) Homepage Journal
      when i was in school, every project final report had to mention possible military applications of the little robots or whatever that we had produced. remote-control car with programmable automatic navigation? reconnaissance, bomb-laying, etc.
      • Re:Potential Uses (Score:4, Insightful)

        by Anonymous Custard ( 587661 ) on Wednesday April 27, 2005 @04:53PM (#12365100) Homepage Journal
        every project final report had to mention possible military applications

        That's kind of depressing... why didn't they require that every final report had to mention applications that could improve life in underdeveloped areas or something?

        Then students would pursue projects with this in mind, instead of developing with military applications in mind. Highly reliable and easy-to-repair water pumps, improved farming tools constructable from local materials, simple and effective water filtration devices, etc.?
        • Re:Potential Uses (Score:5, Insightful)

          by budgenator ( 254554 ) on Wednesday April 27, 2005 @06:34PM (#12366220) Journal
          Then students would pursue projects with this in mind, instead of developing with military applications in mind. Highly reliable and easy-to-repair water pumps, improved farming tools constructable from local materials, simple and effective water filtration devices, etc.?

          You say that like those aren't military applications, I think perhaps your out of touch with what modern military actualy does. Demonizing anything military is easy, and the people who do it the most are the people who don't realize that it's the military's infrastructure that make most humanitarian relief operations possible. Next time you think somebody needs 10,000 tons of relief supplies ask FedEx what the going rate is, and if they drop it off in a hostile fire zone.
          • You say that like those aren't military applications

            Just because the military is involved in getting aid relief to combat zones doesn't make a water purifier a military tool. Nor is a reliable water pump the kind of military applications the original poster's school had him think up.
    • So what they're saying is that this technology just happens to have potential more or less exclusively in areas populated by companies/agencies that have a lot of money floating around for research grants, eh?

      Um, the low-lying fruit has already been picked.
    • Re:Potential Uses (Score:3, Informative)

      by Merk ( 25521 )

      I just think it's funny that they try to limit the applications.

      That's kinda like saying "The 'Internet' could have potential uses in communications, biomedical research and remote sensing."

      If small-scale fusion that produces more power than it consumes is indeed possible, it could have implications everywhere in everything. Portable, standalone fusion power sources could (in time) change everything. ((Note to self: do not mention phasers and lose all credibility....))

      • Re:Potential Uses (Score:5, Insightful)

        by (54)T-Dub ( 642521 ) * <tpaine.gmail@com> on Wednesday April 27, 2005 @04:05PM (#12364524) Journal
        From the MSNBC article:
        The reaction gave off an isotope of helium along with subatomic particles known as neutrons, a characteristic of fusion. The experiment did not, however, produce more energy than the amount put in -- an achievement that would be a huge breakthrough.
        To me this was the most important part of the article and the summary would have benefited for it. The quote shows the reason why this only has limited applications.
        • Re:Potential Uses (Score:3, Insightful)

          by modecx ( 130548 )
          But hey, perhaps it might be a good helium generation technology, depending on how efficient it can be made... For those who don't know, the world is facing a shortage on helium. Most of the world's supply is found in Kansas, Texas and Wyoming mixed in with natural gas or oil. It's necessary for various industries and sciences, such as calibrating instruments and welding aluminium.

          I'd guess that lowering the temperature of Natural gas to -300F so that everything but He is liquified is pretty darn ineffic
        • by Anonymous Coward on Wednesday April 27, 2005 @05:41PM (#12365605)
          This reaction is known to cause cancer in the State of California.
    • Re:Potential Uses (Score:4, Insightful)

      by cavemanf16 ( 303184 ) on Wednesday April 27, 2005 @03:51PM (#12364321) Homepage Journal
      "While the energy created was too small to harness cheap fusion power, the technique could have potential uses in medicine, spacecraft propulsion, the oil drilling industry and homeland security, said Seth Putterman, a physicist at the University of California at Los Angeles."


      And why is it that every new American invention these days has a "potential use" in homeland security? There must be plenty of money wasting away in that crappy program right now if every single scientist talks about it whenever they release new findings. I'm off to begin building my CompuMegaInterCorpHomelandSecurity company now... (I figure with a name like that, how can the VC's NOT trust me with googleplexes of money?!!)

    • So what they're saying is that this technology just happens to have potential more or less exclusively in areas populated by companies/agencies that have a lot of money floating around for research grants, eh?


      What a stroke of luck!

      Hey, research funding has to come from somewhere.
    • Re:Potential Uses (Score:3, Informative)

      by mparar ( 764109 )
      Indeed. A lucky break for them. It's an amazing coincidence that I just finished reading "Bad Science : The Short Life and Weird Times of Cold Fusion" by Gary Taubes last night. It's a fast paced, light, extremely well-written book that'll put most thriller/mystery type books to shame. Especially for anybody remotely connected wth academia. He describes the events leading up to and following the great cold fusion sham in the late 80s and early 90s out of Utah U and BYU and quickly picked up by a bunch of
  • by Anonymous Coward on Wednesday April 27, 2005 @03:32PM (#12363985)
    Goes to show that sci fi is sci fact.
  • The problem (Score:2, Funny)

    by Anonymous Coward
    They should have been useing DI-lithium crystals. Stupid UCLA.
  • Solar Sails (Score:2, Interesting)

    by mfh ( 56 )
    A UCLA collaboration ... this technology could be used for things like microthrusters...etc

    I can see this being of use with solar sail vessels. But how close are we to fusion power stations?
  • Pyroelectric? (Score:3, Informative)

    by Anonymous Coward on Wednesday April 27, 2005 @03:35PM (#12364040)
    Submitter is confusing "pyroelectric" with "piezoelectric." Crystals used for oscillators, filters, and speakers use the piezoelectric [wikipedia.org] effect.
    • Re:Pyroelectric? (Score:5, Informative)

      by grmoc ( 57943 ) on Wednesday April 27, 2005 @03:43PM (#12364186)
      pyroelectric-- Converts heat energy into electrical energy

      piezoelectric-- Converts kinetic energy into electrical energy

      In this experiment, they heat up a (Lithium tantalate) crystal which reacts by creating a very high charge.. etc.

      In other words, the crystal is a pyroelectric crystal, and not necessarily piezoelectric.
    • RTFA, then Google if necessary. Here are some articles to help:

      There's a Wiki article [wikipedia.org], a
      product announcement [fuji-piezo.com], and
      this one [amptek.com] even details how pyroelectric crystals have been used to generate X-rays.

      • Sorry, meant to add that piezoelectric refers to materials that generate electricity when they change shape. Pyroelectric substances generate a charge when heated.

    • Yes, pyroelectric. (Score:3, Informative)

      by GQuon ( 643387 )
      They call the study "Observation of nuclear fusion driven by a pyroelectric crystal".

      Unless the submitter is one of the researchers, the submitter was correct.

      Thanks for making me learn about those electric characteristics of chrystals though.
    • ... as was I.

      Certainly, the research is about using the pyroelectric effect. The submitter was right about that.

      What the submitter was wrong about was this:
      "a type of crystal used in cell phones to filter signals."
      That is, as the parent post correctly points out, using the piezoelectric effect. So it is informative, although it should have pointed out exactly in what part of the write-up was wrong.

      (My other reply down as -1 Wrong. Sorry, Anonymous Coward.)
  • by empty drum ( 876694 ) on Wednesday April 27, 2005 @03:36PM (#12364063) Homepage Journal
    Old and busted: Mini fuel cell power
    New hotness: Mini fusion reactor power
  • by 1evilmonkey ( 837713 ) on Wednesday April 27, 2005 @03:36PM (#12364064)
    Next week they will place that bad boy on a flux capacitor.
  • by Penguinoflight ( 517245 ) on Wednesday April 27, 2005 @03:37PM (#12364075) Journal
    eh, too bad it cant stop a 26 billion hits per nanosecond... oh wait, this is slashdot.
  • Argh! (Score:3, Insightful)

    by Anonymous Coward on Wednesday April 27, 2005 @03:38PM (#12364096)
    A UCLA collaboration (Seth Putterman, Brian Naranjo and Jim Gimzewski) appear to have developed a fusion device powered by a pyroelectric crystal, a type of crystal used in cell phones to filter signals. When heated, such a crystal produces a large electric charge on its surface. The UCLA researchers placed a lithium tantalate (LiTaO3) pyroelectric crystal so that one side touches a copper disc. A tiny tungsten probe is then placed at the center of the copper disc. When the crystal is subsequently heated, a very large large electric field is produced at the end of the tugsten tip, ~25 billion volts per meter. This field gradient is so high that it strips the electrons from nearby deuterium atoms. The ionized deuterium atoms [are] then accelerated by this field towards a solid target of erbium deuteride (ErD2). They collide with it at such high energies that some fuse with the target. A measurement of almost 900 neutrons per second was observer. This is 400 times the background! Although the amount of energy produced in this initial experiment was miniscule (~1E-8 jules), this technology could be used for things like microthrusters. There are pictures and movies on the UCLA's physics site."

    Do the editors even look at these things anymore?
  • by nokiator ( 781573 ) on Wednesday April 27, 2005 @03:39PM (#12364113) Journal
    Going briefly over the available documents on this, it appears that this technique consumes orders of magnitude more energy than it produces. This would preclude energy generation as one of the potential applications, which is usually regarded as the most promising potential application of cold fusion. Most of the other potential applications mentioned in the articles use this as a neutron generator, but there are other well known ways of achieving that...
    • by jmv ( 93421 ) on Wednesday April 27, 2005 @03:53PM (#12364358) Homepage
      You would be right if this weren't a prototype (it's not like they're selling it). What they demonstrated is that it's possible to do fusion outside of a tokamak (or similar device). From there, you can always try making the thing work at a higher scale, with less energy.
      • by JudasBlue ( 409332 ) on Wednesday April 27, 2005 @04:44PM (#12365004)
        You would be right, if there weren't already other ways of doing fusion without a tokamak or simlar devices.

        Philo Farnsworth was doing table top fusion back in the 60's using tube techniques that were part of the outgrowth of his pioneering work in Television.

        Check out fusor.net [fusor.net] for details on the technique.

        Look around on the Net, and you can find more articles on the device in question, including people who have built them to play around with. To the best of my knowledge, there is no practical appliction for a Farnsworth device, except the not-inconsiderable bragging rights that you have built your own fusion reactor (a line sure to have the babes just lining up).
    • by kebes ( 861706 ) on Wednesday April 27, 2005 @04:09PM (#12364583) Journal
      The only other ways to achieve neutron flux (that I'm aware of) are to (1) use a particle accelerator collision to release neutrons (i.e.: spallation) or (2) to use a radioactive source (or running nuclear recator) and guide the flux of exiting neutrons. Both of these are quite large and not very portable.

      Although this research is not going to give us energy production, it is the smallest neutron source I've heard of (palm-sized according to article). This in and of itself is quite exciting, and it would have numerous applications in industry. Neutron sources right now are used to image industrial materials (it can be used to map the internal stress distribution in pipes, aircraft components, etc... and it can get images through materials that would block x-rays). Having portable neutron-imagers would be useful to industry for doing stress analysis/imaging on components while they are in actual use. I can think of lots more applications, but I'll leave it at that.

      For those interested, here is the abstract of the Nature article in question (the article is already available online, to subscribers, even though it officially releases in tomorrow's issue of Nature):
      Nature 434, 1115-1117 (28 April 2005) | doi: 10.1038/nature03575
      While progress in fusion research continues with magnetic[1] and inertial[2] confinement, alternative approaches--such as Coulomb explosions of deuterium clusters[3] and ultrafast laser-plasma interactions[4]--also provide insight into basic processes and technological applications. However, attempts to produce fusion in a room temperature solid-state setting, including 'cold' fusion[5] and 'bubble' fusion[6], have met with deep scepticism[7]. Here we report that gently heating a pyroelectric crystal in a deuterated atmosphere can generate fusion under desktop conditions. The electrostatic field of the crystal is used to generate and accelerate a deuteron beam (> 100 keV and >4 nA), which, upon striking a deuterated target, produces a neutron flux over 400 times the background level. The presence of neutrons from the reaction D + D --> 3He (820 keV) + n (2.45 MeV) within the target is confirmed by pulse shape analysis and proton recoil spectroscopy. As further evidence for this fusion reaction, we use a novel time-of-flight technique to demonstrate the delayed coincidence between the outgoing alpha-particle and the neutron. Although the reported fusion is not useful in the power-producing sense, we anticipate that the system will find application as a simple palm-sized neutron generator.
  • If we can get his webserver to produce more fusion!

    I can see it now - "Slashdot - powering the world through mass action browsing."
  • by LemonFire ( 514342 ) on Wednesday April 27, 2005 @03:40PM (#12364135) Homepage
    Finally! That was the last missing part for my doomsday machine. Thank you guys...

    -- This SIG was never meant to be.
  • LiTaO3 (Score:5, Funny)

    by The Fun Guy ( 21791 ) on Wednesday April 27, 2005 @03:42PM (#12364172) Homepage Journal
    How can you possibly expect to get useful fusion reactions using a monolithium crystal?
    • Re:LiTaO3 (Score:4, Funny)

      by HtR ( 240250 ) on Wednesday April 27, 2005 @03:56PM (#12364404)
      I know! And what's with the erbium deuteride (ErD2) target? When I duplicated their results in my garage this afternoon, I found that you get much better results with a radium deuteride (R2D2) target. What were they thinking?
    • Re:LiTaO3 (Score:3, Funny)

      by simcop2387 ( 703011 )
      of course you can get FUSION out of a monolithium crystal, its the Matter/Anti-Matter control that you can't get without a dilithium crystal matrix.
    • Shhh! (Score:4, Funny)

      by alienmole ( 15522 ) on Wednesday April 27, 2005 @04:49PM (#12365060)
      Don't screw with the timeline -- they have to get through the monolithium phase on their own!
    • Re:LiTaO3 (Score:3, Funny)

      by Talinom ( 243100 )
      How can you possibly expect to get useful fusion reactions using a monolithium crystal?

      Duh! That what the fusion part is for; to fuse monolithium into dilithium (or even trilithium)!
  • by Colgate2003 ( 735182 ) on Wednesday April 27, 2005 @03:43PM (#12364189) Homepage
    Yes, they are fusing particles, but this is not power-producing fusion. To call it fusion will mislead a general audience.

    What it is -- which is still very cool -- is a particle accellerator the size of a toaster. High energy accerators fuse atoms, but we don't usually call them fusion reactors.

    So, we should be talking about a small particle accelrator that could be used for medical imaging and treatment, sensing, or spacecraft propulsion.
    • Before someone else points it out:

      How did I possibly manage to spell "accelerator" three different ways in the same post?
      • How did I possibly manage to spell "accelerator" three different ways in the same post?

        Talent?

        On a slightly more serious note, not just any particle accelerator. A neutron accelerator. With a very simple input (heat), if this kicks out a high enough neutron flux density you could have a cheap-n-compact high-yield neutron source for all kinds of kind and nefarious purposes.

    • Not to burst any bubbles, but the first cyclotron particle accelerator was smaller than a palm pilot, and was built in 1929.

      You can see it here:

      http://science.howstuffworks.com/atom-smasher2.htm

      Anyhoo, while I find the experiment and subsequent discovery kind of interesting, it isn't anything terribly exciting.

  • Seriously, except for the minor grammar/spelling error with "observer" (which is just a typical miss for our dear old editors here), this was a quality post with quality information and no question, news for nerds! If Slashdot could maintain this sort of quality (and perhaps even correct the spelling and grammar errors), I would be a much happier reader.
  • beo (Score:2, Funny)

    by 42Penguins ( 861511 )
    "Although the amount of energy produced in this initial experiment was miniscule (~1E-8 jules), this technology could be used for things like microthrusters." ----------------- So, to get a good amount of energy, you'd need a beowulf cluster of these?
  • by kebes ( 861706 ) on Wednesday April 27, 2005 @03:45PM (#12364239) Journal
    In 2002 there was a report claiming fusion due to cavitation. The article appeared in Science:
    Science, Vol 295, Issue 5561, 1868-1873 , 8 March 2002 [DOI: 10.1126/science.1067589]

    The method involves irradiating a liquid with sound. The acoustic waves can cause microscopic bubbles to form in solution (cavitation). When these bubbles collapse, their temperatures can become quite high. Done properly, in fact, these cavitations can lead to sonoluminescence (creation of light from sound). The creation of a plasma under these conditions has been confirmed. The Science article further claimed that neutrons were measured, indicating that fusion temperatures had been achieved. They were certainly not claiming this as a power source (yet), since energy input was much greater than output.

    The interesting thing is the controversy that resulted, and, as far as I know, is still not resolved. Scientists worldwide are still split on whether or not fusion has really been achieved. It will take some time longer before we know for sure (altough the most recent reports I've read lean towards this really being fusion).

    I'm bringing this up because it seems rather similar to what we have here. It is a high-profile announcement of fusion in a rather unusual setup. I anticipate that this will be met with much skepticism (rightly), and that it will take some time before we know "for sure" that it's really fusion.

    Anyways, highly interesting results, and I'm looking forward for future confirmation/elaboration of these experiments. But I wouldn't get too excited, since these kinds of discoveries sometimes have subtle flaws (or mis-interpretations) that only become revealled when the full scrutiny of the scientific process is applied to them.
    • by khrtt ( 701691 ) on Wednesday April 27, 2005 @04:18PM (#12364692)
      Don't forget the good old pulse neutron tubes [lbl.gov].

      Pulse neutron tubes are fusion-based neutron sources, most commonly used in circa 1970 atom bomb trigger mechanisms. They are also used for peaceful purposes, pretty much whenever one needs a 14 MeV neutron source. The vacuum tube uses very high voltage to accelerate deterium ions towards a target. Or something... In other words, achieving fusion at room temperature in a small apparatus is no big deal. The problem is that you always have to input way more energy into the device than you can get out. I don't see how any of these new advances in achieving fusion bring us closer to use of fusion as power source. Not to say that this new fusion neutron source is a wonderful scientific achievment, it is, it's just doesn't seem likely to be a potential power source technology.
      • Well firstly there are other applications for fusion besides power production (such as neutron sources for imaging, detection, etc.).

        Secondly, with regard to power production, every fusion experiment adds a piece to the puzzle, even if that particular device setup will never be used to generate power. Most large-scale fusion experiments that have been performed, in fact, had no intention of generating power. They merely wanted to push the boundaries of what was known about fusion, and what could be engin
  • From the MSNBC article:

    "The experiment did not, however, produce more energy than the amount put in"

    So, how is this useful from a fusion / energy source standpoint?
  • by Jurph ( 16396 ) on Wednesday April 27, 2005 @03:47PM (#12364275)
    gnuman99 writes "A UCLA collaboration (Seth Putterman, Brian Naranjo and Jim Gimzewski) appear to have developed a fusion device powered by a Pentium, a type of silicon chip used in personal computers to generate heat. When charge is applied, such a chip produces a large thermal gradient on its surface. The UCLA researchers placed a Pentium-based webserver so that one side touched a website called Slashdot. A tiny CAT-5 cable is then connected to the internet. When the website about fusion is visited by thousands of geeks at once, a very large large load is produced on the server, ~25 billion hits per hour. This traffic volume is so high that it strips the heavier "one" bits in the packets from the "zeroes". The ionized packets are then accelerated by this field towards the central processing unit (CPU). They collide with it at such high energies that some fuse with the target. A measurement of almost 900 Kelvin was taken by an observer. This is way higher than the background! Although the amount of energy produced in this initial experiment was miniscule (~1E-8 jules), this technology could be used on things like Microsoft's website. There are pictures and movies on the UCLA's physics site contributing to the problem." Reader richmlpdx adds a link to coverage at MSNBC, in hopes that he can slashdot them too.
  • don't they already developed this technology ?
  • There was no explosion. Real fusion power should involved accidentally blowing up a neighborhood because it was tested in a warehouse (a la Chain Reaction). If there's no boom, it doesn't exist and no one will believe you.
  • The reason these devices are interesting is the flow of Neutrons.

    There are several applications in materials science where you want neutrons, but you don't want to send your sample off to Oak Ridge, and wait, or go through the paperwork to try to build a research reactor. This device would allow, for instance, in-house Neutron Diffraction experiments, which is similar to X-ray diffraction except that Hydrogens show up. You can see hydrogen loading in containment materials, migration in batteries, and
  • New Scientist has a right up as well. The seemed to have written off the whole idea of using it to produce energy. http://www.newscientist.com/article.ns?id=dn7315 [newscientist.com]
  • im sorry... (Score:5, Funny)

    by patrick.whitlock ( 708318 ) on Wednesday April 27, 2005 @03:55PM (#12364400)
    but could someone put that through a babelfish and tell me what this guy said?
  • Holy Crap, no matter how much of a nerd you are you realize there are always bigger ones. Dude ions and erbin-somethin's collide and holy cow they make 900 other-sumpthins that's like 400 times the back-doo-dad!

    That whole article could have been written in Esperanto for as much as I could get from it and I have a solid background in Compsci, EE, and sci.
  • Which one of these scientists will turn into the Hulk ?

    And who knew i was using this technology everytime I lit my cigarette !
  • by MrKevvy ( 85565 ) on Wednesday April 27, 2005 @03:58PM (#12364440)
    The Farnsworth-Hirsch Fusor [wikipedia.org] has been around since the 1960's, and is so easy to build that it is sometimes seen in high school science fairs. It is commonly available as a neutron source.

    What would be "new" would be a net gain in energy, but like the fusor, that doesn't seem to be happening with this new device.
    • by kebes ( 861706 ) on Wednesday April 27, 2005 @05:12PM (#12365288) Journal
      It is commonly available as a neutron source.

      Can you provide me references on that, please? I use neutron sources in my research, and I'm not aware of a Fusor setup being used at any real neutron beamlines around the world. They are all either particle accelerators that produce neutrons via spallation (such as the upcoming Spallation Neutron Source [sns.gov]), or are radiological/nuclear reactors (such as NIST [nist.gov], HMI [www.hmi.de], etc.). Despite the simplicity of the Fusor, it is not actually used as a neutron source by anyone. As far as I know, the flux is much too low and the system not efficient.
  • by radtea ( 464814 ) on Wednesday April 27, 2005 @03:59PM (#12364446)
    What these guys have done is found a novel application of a relatively well-known means of generating extremely high electric fields. This is good, and may produce more compact, robust neutron generators than we currently have.

    But it is clear from the article--and the basic physics--that this isn't a practical means of generating fusion power. This is just another hot fusion mechanism--it isn't "room temperature". The deuterium ions from the gas discharge are accelerated by the field and smash into the ErD surface with high energies.

    The interaction cross-sections are such that virtually all of the D ions will slow down without fusing, and the energy that went into accelerating them will be only recoverable as heat, with the usual thermodynamic (in)efficiencies. The DD fusion cross-section just isn't high enough to overcome those losses.

    Cool experiment, though.

    --Tom
  • Is room-temperature fusion considered cold fusion or is that something else?
  • Is this the new requirment for getting funding for any project? " see it also can be used for homeland security ".. So can my damned shoes..

    What a farce.

    ( oh, great project.. good work guys )
  • by Pig Hogger ( 10379 ) <pig DOT hogger AT gmail DOT com> on Wednesday April 27, 2005 @04:46PM (#12365032) Journal
    The ionized deuterium atoms then accelerated by this field towards a solid target of erbium deuteride (ErD2).
    In Contact (the book, not the movie), at one point, when they were assembling the Machine, they had some problem with ERBIUM DOWELS. Does erbium has some esoteric nuclear capabilities???
  • Build your own? (Score:5, Informative)

    by TheSync ( 5291 ) on Wednesday April 27, 2005 @05:14PM (#12365312) Journal
    Instructions for building your own electrostatic confinement fusion device (aka fusor) are here [kronjaeger.com].
  • Research Value (Score:4, Insightful)

    by knapper_tech ( 813569 ) on Wednesday April 27, 2005 @05:43PM (#12365630)
    Even if the technology is found to be unable to produce sufficient amounts of energy to be valuable in that role, it could still be a great platform for studying fusion in the lab, and it could yield useful information for controlling fusion in the large scale research reactors that may eventually lead to scalable, cheap, and abundant energy production.
  • Worldwide Splash (Score:3, Informative)

    by sterlingda ( 732011 ) on Thursday April 28, 2005 @03:04AM (#12369221) Homepage Journal

    Because this development was featured in prestigious Nature, the world is taking notice. An Associate Press story is receiving widespread coverage by mainstream news organizations. Google News is showing major coverage by a wide range of news organizations worldwide. http://pesn.com/2005/04/28/6900088_UCLA_Cold_Fusio n/ [pesn.com]

    UCLA website http://rodan.physics.ucla.edu/pyrofusion/ [ucla.edu] credits SlashDot for overwhelming their server.

    "Sorry, couldn't handle Slashdot effect. ...Last modified: Wed Apr 27 20:37:46 UTC 2005"

    Also worth note: Cold Fusion Goes Back to School at MIT - Colloquium to be held on Massachusetts Institute of Technology campus May 21, 2005. http://pesn.com/2005/04/20/6900085_Cold_Fusion_MIT / [pesn.com]

  • by sydbarrett74 ( 74307 ) <sydbarrett74.gmail@com> on Thursday April 28, 2005 @10:39AM (#12372497)
    We're one step closer to Mr Fusion -- now all we need is the time-travelling DeLorean....

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