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FAN Sheng1,2;YAN Fang1,3;ZHANG Hong-zhou1,4;ZHAO Zhi-xiang~1 1.China Institute of Atomic Energy,Beijing 102413,China 2.Shanghai Applied Radiation Institute,Shanghai University,Shanghai 201800,China 3.Nuclear Technology College,Nanhua University,Hengyang 421000,China 4.Physics Department,Nor. Systematics Approach of the Cross Section for (n,α) Reaction Based on the Evaporation and Excition Models[J]. Atomic Energy Science and Technology, 2004, 38(3): 193-193. DOI: 10.7538/yzk.2004.38.03.0193
Citation: FAN Sheng1,2;YAN Fang1,3;ZHANG Hong-zhou1,4;ZHAO Zhi-xiang~1 1.China Institute of Atomic Energy,Beijing 102413,China 2.Shanghai Applied Radiation Institute,Shanghai University,Shanghai 201800,China 3.Nuclear Technology College,Nanhua University,Hengyang 421000,China 4.Physics Department,Nor. Systematics Approach of the Cross Section for (n,α) Reaction Based on the Evaporation and Excition Models[J]. Atomic Energy Science and Technology, 2004, 38(3): 193-193. DOI: 10.7538/yzk.2004.38.03.0193
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  • The production data of helium from neutron--Induced reactions are of primeimportance from the viewpoint of nuclear applications and nuclear reactor technology. Asystematics approach of the cross section for the (n,α) reaction is obtained on the basisof the evaporation and exciton models. The systematic parameters depend on the energyof incident neutron, the mass and charge number of the target nucleus. The predictionsfrom systematics approach of (n, α) cross section are in good agreement with the experi-mental data.
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