ZHANG Su-ya-la-tu, LUO Fei, CHEN Zhiqiang, Temuerbagen. GEANT4 and FLUKA Simulations of Neutron Production Double Differential Cross Sections in Proton Induced Spallation Reaction[J]. Nuclear Physics Review, 2016, 33(3): 370-373. doi: 10.11804/NuclPhysRev.33.03.370
Citation:
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ZHANG Su-ya-la-tu, LUO Fei, CHEN Zhiqiang, Temuerbagen. GEANT4 and FLUKA Simulations of Neutron Production Double Differential Cross Sections in Proton Induced Spallation Reaction[J]. Nuclear Physics Review, 2016, 33(3): 370-373. doi: 10.11804/NuclPhysRev.33.03.370
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GEANT4 and FLUKA Simulations of Neutron Production Double Differential Cross Sections in Proton Induced Spallation Reaction
- 1.
Inner Mongolia University for the Nationalities, College of Physics and Electronics Information, Tongliao 028000, Inner Mongolia, China;
- 2.
University of Science and Technology of China, Hefei 230027, China;
- 3.
Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China
Funds:
National Natural Science Foundation of China (11605097); Doctoral Scientific Research Foundation of Inner Mongolia University for Nationalities(BS365); ADS Project 302 of Chinese Academy of Sciences(Y103010ADS)
- Received Date: 2015-12-21
- Rev Recd Date:
2016-01-08
- Publish Date:
2016-09-20
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Abstract
For the design of nuclear engineering related with medium-high energy proton induced spallation reaction,the reliable Monte Carlo simulation codes coupled with nuclear reaction models have a good theoretical guidance.In this work,the production spallation neutron double differential cross sections at 30°,60°,120°,150°emission angle for Be,Al,Fe,W,U target materials at incident proton energies between several hundred MeV and GeV are theoretically calculated by using the GEANT4 coupled INCL4 and ABLA,and the FLUKA coupled PEANUT.The calculated results were compared with the available experimental data.It is found that the GEANT4 and FLUKA calculations well reproduced the experimental measurement of Al,Fe,W,U target materials.However,calculations obviously underestimated the emission neutrons of Be target for lower than 10 MeV energy range.
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Proportional views
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