2004
DOI: 10.1007/pl00021745
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Development of a fusion and fission power system based on direct-action microtargets and a high-power heavy-ion driver

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“…Numerical simulation of the energy distribution in such a hybrid target, which was performed in [18], has shown that the energy released in the core can exceed the energy released in DT fusion. Under the action of fast neutrons, a short (in three generations) fission chain reaction arises in the core from 238 U, the pressure in the shell increases substantially, and additional compression of the DT mixture occurs.…”
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confidence: 99%
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“…Numerical simulation of the energy distribution in such a hybrid target, which was performed in [18], has shown that the energy released in the core can exceed the energy released in DT fusion. Under the action of fast neutrons, a short (in three generations) fission chain reaction arises in the core from 238 U, the pressure in the shell increases substantially, and additional compression of the DT mixture occurs.…”
mentioning
confidence: 99%
“…The fusion reaction increases this value to 1.4 GW. It is important to note that if the pusher does not contain fissioning material, for example, it is made of gold [15,18], then only 40% of the DT mixture burns, and this corresponds to energy release 210 MJ. This means that in a hybrid target the nuclear and thermonuclear components do not simply add, but rather they intensify one another.…”
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