Ping!
Physical Review E publishes paper on fusion experiment conducted with upgraded measurement system TROY, N.Y. Physical Review E has announced the publication of an article by a team of researchers from Rensselaer Polytechnic Institute (RPI), Purdue University, Oak Ridge National Laboratory (ORNL), and the Russian Academy of Science (RAS) stating that they have replicated and extended previous experimental results that indicated the occurrence of nuclear fusion using a novel approach for plasma confinement. This approach, called bubble fusion, and the new experimental results are being published in an extensively peer-reviewed article titled Additional Evidence of Nuclear Emissions During Acoustic Cavitation, which is scheduled to be posted on Physical Review Es Web site and published in its journal this month. The research team used a standing ultrasonic wave to help form and then implode the cavitation bubbles of deuterated acetone vapor. The oscillating sound waves caused the bubbles to expand and then violently collapse, creating strong compression shock waves around and inside the bubbles. Moving at about the speed of sound, the internal shock waves impacted at the center of the bubbles causing very high compression and accompanying temperatures of about 100 million Kelvin. These new data were taken with an upgraded instrumentation system that allowed data acquisition over a much longer time than was possible in the teams previous bubble fusion experiments. According to the new data, the observed neutron emission was several orders of magnitude greater than background and had extremely high statistical accuracy. Tritium, which also is produced during the fusion reactions, was measured and the amount produced was found to be consistent with the observed neutron production rate. Earlier test data, which were reported in Science (Vol. 295, March 2002), indicated that nuclear fusion had occurred, but these data were questioned because they were taken with less precise instrumentation. These extensive new experiments have replicated and extended our earlier results and hopefully answer all of the previous questions surrounding our discovery, said Richard T. Lahey Jr., the Edward E. Hood Professor of Engineering at Rensselaer and the director of the analytical part of the joint research project. Other fusion techniques, such as those that use strong magnetic fields or lasers to contain the plasma, cannot easily achieve the necessary compression, Lahey said. In the approach to be published in Physical Review E, spherical compression of the plasma was achieved due to the inertia of the liquid surrounding the imploding bubbles. Professor Lahey also explained that, unlike fission reactors, fusion does not produce a significant amount of radioactive waste products or decay heat. Tritium gas, a radioactive by-product of deuterium-deuterium bubble fusion, is actually a part of the fuel, which can be consumed in deuterium-tritium fusion reactions. Researchers Rusi Taleyarkhan, Colin West, and Jae-Seon Cho conducted the bubble fusion experiments at ORNL. At Rensselaer and in Russia, Professors Lahey and Robert I. Nigmatulin performed the theoretical analysis of the bubble dynamics and predicted the shock-induced pressures, temperatures, and densities in the imploding vapor bubbles. Robert Block, professor emeritus of nuclear engineering at Rensselaer, helped to design, set up, and calibrate a state-of-the-art neutron and gamma ray detection system for the new experiments. Special hydrodynamic shock codes have been developed in both Russia and at Rensselaer to support and interpret the ORNL experiments. These computer codes indicated that the peak gas temperatures and densities in the ORNL experiments were sufficiently high to create fusion reactions. Indeed, the theoretical shock code predictions of deuterium-deuterium (D-D) fusion were consistent with the ORNL data. The research team leaders are all well known authorities in the fields of multiphase flow and heat transfer technology and nuclear engineering. Taleyarkhan, a fellow of the American Nuclear Society (ANS) and the programs director, held the position of Distinguished Scientist at ORNL, and is currently the Ardent Bement Jr. Professor of Nuclear Engineering at Purdue University. Lahey is a fellow of both the ANS and the American Society of Mechanical Engineers (ASME), and is a member of the National Academy of Engineering (NAE). Nigmatulin is a visiting scholar at Rensselaer, a member of the Russian Duma, and the president of the Bashkortonstan branch of the Russian Academy of Sciences (RAS). Block is a fellow of the ANS and is the longtime director of the Gaerttner Linear Accelerator (LINAC) Laboratory at Rensselaer. The bubble fusion research program was supported by a grant from the Defense Advanced Research Projects Agency (DARPA). About Rensselaer Rensselaer Polytechnic Institute, founded in 1824, is the nations oldest technological university. The school offers degrees in engineering, the sciences, information technology, architecture, management, and the humanities and social sciences. Institute programs serve undergraduates, graduate students, and working professionals around the world. Rensselaer faculty are known for pre-eminence in research conducted in a wide range of research centers that are characterized by strong industry partnerships. The Institute is especially well known for its success in the transfer of technology from the laboratory to the marketplace so that new discoveries and inventions benefit human life, protect the environment, and strengthen economic development. |
Rensselaer News |
w00t
Would it not be more correct to say that its a holy grail becuase of the efficency with which it releases energy? It really does not produce more energy than went into making up the atoms being fused..
bof·fin also Bof·fin ( P ) Pronunciation Key (bfn)
n. Chiefly British Slang
A scientist, especially one engaged in research.
Paging Mr. Pons.
I thought the US Dept. of Energy already declared this experiment to be "bunk". The US government couldn't be wrong, could it?
Another example of where British slang (boffin) is quite different from American slang (boffin')....
Europe is just finishing a massive hot fusion facility.
Classic understatement.
Actually it is ... here's hoping it takes only a few years to develop. Probably a vain hope, but let's hope nonetheless.
Wow, super cool. Free energy!
Too good to be true???? maybe - but I still have a gut feeling that something happened then and there
Highlighting the papers presented will be reports of reproducible experiments producing both the heat and nuclear signature of fusion (helium). Additional papers will show the characteristics of materials involved in these solid state fusion reactions as well as showing that classical nuclear reaction fingerprints of fissioning metals are also found in solid state fusion materials.
Ardent skeptics of this field have consistently demanded that researchers must show both the heat and ashes of fusion. APS presentors trust those skeptics will be in attendance for these historic presentations of precisely that evidence.
A reception will follow the presentations where presentors will be available to the press for questions and do their best to be gracious while serving delicious poultry capapes to those most ardent of the cold fusion skeptics of the last 15 years.
I thought cold fusion was Bill and Hillary mating.
Does this mean we don't need whale oil anymore?
Previous thread this subject
http://freerepublic.com/focus/f-news/1321476/posts
CONSORTIUM FORMED TO STUDY ACOUSTIC FUSION
My question is why is the Inquirer publishing this story now? The "press release" that is linked is almost a year old.
I can understand a physics journal taking about a year to publish a paper, but where was all of the excitement when RPI release the presser in March 2004?
Any hint why the press release is 10 months old?