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In the race for fusion energy, lightning thunders over lasers
With latest results at international conference, NJ start-up can already fuse atoms almost four times more efficiently than government’s National Ignition Facility…for a fraction of the cost
In presentations at the gathering of over one thousand scientists—the 38th International Conference on Plasma Science—the NIF researchers reported producing an impressive 400 trillion neutrons from the fusion reactions in their best experiments. But NIF uses a lot of energy to accomplish this feat, some 422 million joules of electric energy. To understand that energy, imagine the energy of motion of 400 one-ton vehicles all moving at 100 miles per hour. Instead of actual vehicles colliding, picture that energy used to generate laser light and focus it on a pellet of frozen deuterium and tritium fusion fuel. (Deuterium and tritium, or DT for short, are isotopes of hydrogen.) That’s the energy NIF uses to generate its neutrons.
At LPP’s much more modest research facility, fusion is generated by a device called a dense plasma focus. LPP’s Focus Fusion-1 (“FoFu-1”) device uses a much smaller amount of electric energy, and instead of powering lasers, this electricity flows directly to electrodes in a central vacuum chamber where it kinks and twists itself to confine a small ball of plasma. In other words, sitting in a space the size of a small garage, FoFu-1 unleashes a bolt of lightning that lassos itself into a knot, and LPP’s patented approach appears to be much more efficient in generating those all-important fusion reactions. FoFu-1’
A truly fair comparison is even more favorable to lightning over lasers, since FoFu-1 has the disadvantage of using pure deuterium fuel (with the reaction represented as DD), not the deuterium mixed with tritium (DT) used by NIF. Since DT is much easier to burn as a fusion fuel, this gives NIF a major advantage. If FoFu-1 achieved the same conditions with DT fuel as it had with DD, it would have achieved results some 60 times better than NIF. But LPP has even bigger plans—Instead of NIF’s radioactive tritium, the company will instead be transitioning to the fuel of regular hydrogen and the common element boron, a reaction which in itself doesn’t make any neutrons at all. This gives LPP’s technology another huge advantage, because it completely avoids the generation of any nuclear waste, while allowing for cheap conversion of fusion energy directly into electricity.
LPP scientists Eric Lerner and Murali Subramanian did not hear of any neutron per joule fusion yields better than those they presented from FoFu-1’s during the conference, which are further supported by comparable results from other dense plasma focus experiments over the past decade. NIF researchers hope to improve enough to reach ignition in a year, but LPP expects to substantially better its own results next month as major upgrades to FoFu-1 are completed. Yet, to judge from the work of most scientists at the conference, an observer might think that there were only two possibilities for fusion: NIF and the equally enormous ITER, a 100-foot tall “plasma donut” that may finish construction in France by 2025.
Even with superior results, LPP’s FoFu-1 must improve its performance by orders of magnitude to demonstrate the feasibility of net energy. In addition, if feasibility is proven, major engineering efforts will also be needed to build a working prototype generator. All this takes funding. But LPP hopes that decision makers will look beyond just two huge approaches, and instead expand both private and governmental fusion investment to include far more ideas, including a little lightning in a bottle.
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Our lead project is the development of a dense plasma focus fusion reactor, using hydrogen and boron fuel. If we succeed, "Focus Fusion" will be an extremely economical, compact, environmentally safe and essentially inexhaustible source of energy.