Energy problems solved? Fusion could come from Levitated Dipoles

Jan. 25, 2010
The holy grail of getting energy from fusion reactions could eventually come out of a new MIT experiment involving what's called levitated dipoles. The apparatus, according to the account in Physorg.com, includes ....a half-ton donut-shaped magnet ...

The holy grail of getting energy from fusion reactions could eventually come out of a new MIT experiment involving what's called levitated dipoles. The apparatus, according to the account in Physorg.com, includes

....a half-ton donut-shaped magnet about the size and shape of a large truck tire, made of superconducting wire coiled inside a stainless steel vessel. This magnet is suspended by a powerful electromagnetic field, and is used to control the motion of the 10-million-degree-hot electrically charged gas, or plasma, contained within its 16-foot-diameter outer chamber.

Not exactly something you could throw together in your garage. The observed result is supposed to be counter-intuitive, at least for physicists, because random turbulence makes the plasma more densely concentrated. It is a completely different approach than the tokamaks normally used to try and induce fusion reactions.

Physorg.com's account of this thing is here:

http://www.physorg.com/news183544566.html

About the Author

Lee Teschler | Editor

Leland was Editor-in-Chief of Machine Design. He has 34 years of Service and holds a B.S. Engineering from the University of Michigan, a B.S. Electrical Engineering from the University of Michigan;, and a MBA from Cleveland State University. Prior to joining Penton, Lee worked as a Communications design engineer for the U.S. Government.

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