![]() ![]() There are possible reactions for chain loss:īut all of these are very low probability, because 6Li is a very good neutron absorber This is overwhelmingly the only fate of a slow neutron. N+6Li=α+t+4,78 MeV, of which about 2,73 MeV are to triton Step 1: with a slow neutron, like stray neutron from cosmic rays or from spontaneous fission of a nearby U nucleus Now, lithium 6 deuteride is another matter! The only naturally known source of muons is produced by the interaction of cosmic rays striking the upper atmosphere producing artificial muons takes a lot of energy, which is why muon-catalyzed fusion has only been studied in the laboratory. However, once two nuclei are brought close enough, nuclear forces, which normally bind protons and neutrons together, become strong enough to overcome electrostatic repulsion, and fusion may take place.Ĭertain particles called muons can serve as catalysts for fusion reactions, but these particles are unstable and exist only for about 2 microseconds before they decay into neutrinos, which don't interact much with other forms of matter. The following article explains the fusion process:Įach nucleus is positively charged because of the protons present, so in order to fuse, first the electrostatic forces tending to repel nuclei must be overcome, which takes energy. In most circumstances, bombarding a hydrogen nucleus, or a lithium nucleus, with various forms of radiation does not initiate a fusion reaction, even for a few lucky nuclei. However, fusion reactions are not like fission reactions, where a fissile nucleus, such as U-235, undergoes fission after absorbing a thermal neutron. I'm afraid I don't understand what you are trying to ask. Does that mean that initially the particle struck by the radiation will fuse and maybe a few after that the energy will be to dispersed or that none of the particles will fuse ![]()
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