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[1211] | 1 | \section{Reaction initial state.} |
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| 2 | |
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| 3 | \hspace{1.0em} The GEANT4 fission model is capable to predict |
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| 4 | final excited fragments as result of an excited |
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| 5 | nucleus |
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| 6 | symmetric or asymmetric fission. The |
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| 7 | fission process (only for nuclei with atomic number |
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| 8 | $A \geq 65$) is considered as a |
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| 9 | competitor for evaporation process, when nucleus transits from an |
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| 10 | excited state to the ground state. Here we describe the final state generation. |
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| 11 | The calculation of the relative probability |
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| 12 | of fission with respect to the evaporation channels are described in the chapter |
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| 13 | concerning evaporation. |
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| 14 | |
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| 15 | The initial information for calculation of fission |
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| 16 | decay consists from the atomic mass number $A$, charge $Z$ of excited |
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| 17 | nucleus, its four momentum $P_0$ |
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| 18 | and excitation energy $U$. |
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