Analysis for fragmentation products of proton-induced reactions on Pb with energy up to GeV

The mass and charge distribution of residual products produced in the spallation reaction needs to be studied because it can provide useful information for the disposal of nuclear and the radiation damage in the spallation target. The mass and charge distribution of the spallation products is studie...

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Detalles Bibliográficos
Autores principales: Fan Sheng, Ding Da Zhao, LiZhuXia, Zhao Zhi Xiang
Lenguaje:eng
Publicado: Chin. Nucl. Inform. Cent. 2002
Materias:
Nuclear Physics
Acceso en línea:http://cds.cern.ch/record/748193
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author Fan Sheng
Ding Da Zhao
LiZhuXia
Zhao Zhi Xiang
author_facet Fan Sheng
Ding Da Zhao
LiZhuXia
Zhao Zhi Xiang
author_sort Fan Sheng
collection CERN
description The mass and charge distribution of residual products produced in the spallation reaction needs to be studied because it can provide useful information for the disposal of nuclear and the radiation damage in the spallation target. The mass and charge distribution of the spallation products is studied by using quantum molecular dynamic (QMD) models. The simulation results are well agreed with the experimental data of the spallation fragment and empirical formula. However, QMD model does not include the fission process; the calculations can not reproduce the fission fragment. The fission model is introduced into QMD model to investigate the fragment products from proton-induced reactions on Pb. The results are in good agreement with the experimental data
id cern-748193
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2002
publisher Chin. Nucl. Inform. Cent.
record_format invenio
spelling cern-7481932019-09-30T06:29:59Zhttp://cds.cern.ch/record/748193engFan ShengDing Da ZhaoLiZhuXiaZhao Zhi XiangAnalysis for fragmentation products of proton-induced reactions on Pb with energy up to GeVNuclear PhysicsThe mass and charge distribution of residual products produced in the spallation reaction needs to be studied because it can provide useful information for the disposal of nuclear and the radiation damage in the spallation target. The mass and charge distribution of the spallation products is studied by using quantum molecular dynamic (QMD) models. The simulation results are well agreed with the experimental data of the spallation fragment and empirical formula. However, QMD model does not include the fission process; the calculations can not reproduce the fission fragment. The fission model is introduced into QMD model to investigate the fragment products from proton-induced reactions on Pb. The results are in good agreement with the experimental dataChin. Nucl. Inform. Cent.CNIC-01638CNNC-0003oai:cds.cern.ch:7481932002
spellingShingle Nuclear Physics
Fan Sheng
Ding Da Zhao
LiZhuXia
Zhao Zhi Xiang
Analysis for fragmentation products of proton-induced reactions on Pb with energy up to GeV
title Analysis for fragmentation products of proton-induced reactions on Pb with energy up to GeV
title_full Analysis for fragmentation products of proton-induced reactions on Pb with energy up to GeV
title_fullStr Analysis for fragmentation products of proton-induced reactions on Pb with energy up to GeV
title_full_unstemmed Analysis for fragmentation products of proton-induced reactions on Pb with energy up to GeV
title_short Analysis for fragmentation products of proton-induced reactions on Pb with energy up to GeV
title_sort analysis for fragmentation products of proton-induced reactions on pb with energy up to gev
topic Nuclear Physics
url http://cds.cern.ch/record/748193
work_keys_str_mv AT fansheng analysisforfragmentationproductsofprotoninducedreactionsonpbwithenergyuptogev
AT dingdazhao analysisforfragmentationproductsofprotoninducedreactionsonpbwithenergyuptogev
AT lizhuxia analysisforfragmentationproductsofprotoninducedreactionsonpbwithenergyuptogev
AT zhaozhixiang analysisforfragmentationproductsofprotoninducedreactionsonpbwithenergyuptogev

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