well, that puts the Farnsworth-Hirsch Fusor a whole lot closer to success in my book, as amateurs are actually doing fusion to the same level as the multi-billion $ tokamak and Inertial Confinement guys, yet can do so in their own home workshops for the cost of a used car.
Indeed, and you can create a complex, unpredictable (chaotic) system with about $10 and a trip to Sears. Most people don't realize that scientists love the simple experiments much better than the ones involving multi-billion dollar equipment. :D
That's the biggest problem with nuclear fusion: it needs a shitload of pressure. The only practical solution has been to construct a plasma within a magnetic container (any material would simply vaporize under the required temperatures) in such a manner that the probabilities of ion collision would be high enough to permit useful fusion to take place. Granted, there is laser-pellet induced fusion, but from what I've heard, the plasma solution is more promising.right now, the best funded Fusor work is being done at the U of Illinois, and they ARE getting neutron counts -- using straight De+De -- in the same vicinity as most tokamaks, yet still are spending a lot less money to do it (fusors are managing to keep pace with the neut counts of tokamaks regardless of fuel, and can easily run on De+Tritium, but tritium is naturally radioactive, and heavily regulated)... Georgia Tech is considering starting up work with the device as well. The main problems with Fusors have to do with preventing grid losses -- fusors work using electrostatic forces, with 2 grids usually arranged as an inner and outer sphere. ions are accelerated by the electrostatic forces thru the gaps in the grids, but once E levels get high enough, they (the ions) start hitting the grids, heating them up and eventually causing material failure. These losses also are the principal cause of failure to run at the charge levels necessary to get anywhere near a self-sustaining reaction. If somebody manages to figure out a way to minimize or eliminate the grid losses, the fusor has it made. The Holy Grail however is to use aneutronic fuels in the fusor -- no neutrons, no waste products, no gradually turning the containment vessel radioactive... just charged particles that can be harvested for direct electricity, without need for turbines, thermocouples etc.
From how I understand it, fusion is just another way of turning the turbine. It releases much more energy, so it can turn the turbine longer, and it carries no radioactivity along with it. I was unaware that they would just harvest charged particles, and I almost doubt that's the case because the useful work in a fusion process would come from the photon release, which would heat up the reactant water, which would turn the turbine and stuff. Unless you mean using the outburst of photons to ionize atoms, of course.
