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METHOD FOR INCREASING THE CROSS-SECTION OF THE REACTION OF NUCLEAR SYNTHESIS FOR PRODUCING ECOLOGICAL THERMONUCLEAR FUEL (OPTIONS)
METHOD FOR INCREASING THE CROSS-SECTION OF THE REACTION OF NUCLEAR SYNTHESIS FOR PRODUCING ECOLOGICAL THERMONUCLEAR FUEL (OPTIONS)
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机译:增加生产生态热核燃料的核合成反应截面的方法(选择)
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摘要
1. A method of obtaining a component of an explosion-proof non-toxic thermonuclear fuel, characterized in that to obtain fuel in an axisymmetric version of the CTS, a method is used to control the spatial orientation of nuclei with a half-integer spin by means of NMR excitation of a fermion cluster of a nuclear molecule in the process of obtaining fuel by intense pulsed firing of hot MIPs at a fluid cold target , which is injected into the wall space of the combustion chamber (structurally similar to a gas-dynamic trap); at the same time, in order to suppress the side reaction and increase the cross section of the fuel synthesis reaction, the magnetic field configuration corresponding to the NMR field with the characteristic parameter of the resonance of the fuel core is initiated in the dissociation zone of the intermediate nuclear molecule, for which the duty cycle and amplitude of the MIPs are controlled by means of pulse-frequency modulation, the current which, coaxial with the field of a powerful solenoid located around the combustion chamber, sets the required configuration of the magnetic field; the effectiveness of this process is controlled by increasing the percentage of the required product in the exhaust and reducing the gamma background generated by the decay of the radioactive product of the side reaction. 2. The method according to claim 1, characterized in that said target, consisting predominantly (~ 70%) of N (compressed or liquefied air), is fired in the above-described mode with protons, initiating the He synthesis reaction, while, in order to suppress the side reaction and increase the reaction cross section synthesis of He, initiate a magnetic field configuration in the dissociation zone of an intermediate nuclear molecule (O *), with
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