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SU Xinwu, HAN Yinlu, CAI Chonghai. Theoretical Calculations of n+56Fe Reaction[J]. Nuclear Physics Review, 2017, 34(2): 258-262. doi: 10.11804/NuclPhysRev.34.02.258
Citation: SU Xinwu, HAN Yinlu, CAI Chonghai. Theoretical Calculations of n+56Fe Reaction[J]. Nuclear Physics Review, 2017, 34(2): 258-262. doi: 10.11804/NuclPhysRev.34.02.258
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Theoretical Calculations of n+56Fe Reaction

doi: 10.11804/NuclPhysRev.34.02.258
  • 1.

    School of Physics and Electronic Science, Shanxi Datong University, Datong 037009, Shanxi, China;

  • 2.

    Key Laboratory of Nuclear Data, China Institute of Atomic Energy, Beijing 102413, China;

  • 3.

    Department of Physics, Nankai University, Tianjin 300071, China

Funds:  National Basic Research Program of China(973 Program)(2007CB209903)
  • Received Date: 2016-08-28
  • Rev Recd Date: 2016-11-02
  • Publish Date: 2017-06-20
  • The gamma production, level production and total inelastic scattering cross sections are calculated at incident neutron energy below 20 MeV. The optical model, the intra-nuclear cascade model, the exciton model (including improved Iwamoto-Harada model), the uni ed Hauser-Feshbach theory and the distorted wave Born approximation theory are used. Theoretical calculated results are compared with the recent experimental data and other evaluated data from ENDF/B-VII, JEFF-3.1, and JENDL-4. It is found that our calculated results agree with the experimental data and the calculated results for some level cross sections are more consistent with the related experimental data than the results from ENDF/B-VII, JEFF-3.1, and JENDL-4 data base.
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    [2] FU C Y, PEREY C M, HETRICK D M, et al. ENDF/B/VI.1 Evaluation of n+56Fe, Personal Comm, 1991.
    [3] PRONVAEV V, TAGESEN S, VONACH H, et al. Physics Data, 1995.
    [4] HAN Y L, ZHANG Y, GUO H R. Nucl Sci and Eng, 2009,161(1): 90.
    [5] BECCHETTI F D, GREENLEES G W. Phys Rev, 1969,182(6): 1190.
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    [9] KUNZ P D. Distorted Wave Code DWUCK4. University of Colorado, Boulder, Colorado,1994.
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    [13] XU Y L, GUO H R, HAN Y L, et al. Sci China Phys, Me-chanics & Astronomy, 2011, 54(11): 2005.
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    [15] SU X W, HAN Y L. Int J Mod Phys E, 2015, 24(12):1550092.
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Theoretical Calculations of n+56Fe Reaction

doi: 10.11804/NuclPhysRev.34.02.258
  • 1. School of Physics and Electronic Science, Shanxi Datong University, Datong 037009, Shanxi, China;
  • 2. Key Laboratory of Nuclear Data, China Institute of Atomic Energy, Beijing 102413, China;
  • 3. Department of Physics, Nankai University, Tianjin 300071, China
Funds:  National Basic Research Program of China(973 Program)(2007CB209903)
  • Received Date: 2016-08-28
  • Rev Recd Date: 2016-11-02
  • Publish Date: 2017-06-20

Abstract: The gamma production, level production and total inelastic scattering cross sections are calculated at incident neutron energy below 20 MeV. The optical model, the intra-nuclear cascade model, the exciton model (including improved Iwamoto-Harada model), the uni ed Hauser-Feshbach theory and the distorted wave Born approximation theory are used. Theoretical calculated results are compared with the recent experimental data and other evaluated data from ENDF/B-VII, JEFF-3.1, and JENDL-4. It is found that our calculated results agree with the experimental data and the calculated results for some level cross sections are more consistent with the related experimental data than the results from ENDF/B-VII, JEFF-3.1, and JENDL-4 data base.

SU Xinwu, HAN Yinlu, CAI Chonghai. Theoretical Calculations of n+56Fe Reaction[J]. Nuclear Physics Review, 2017, 34(2): 258-262. doi: 10.11804/NuclPhysRev.34.02.258
Citation: SU Xinwu, HAN Yinlu, CAI Chonghai. Theoretical Calculations of n+56Fe Reaction[J]. Nuclear Physics Review, 2017, 34(2): 258-262. doi: 10.11804/NuclPhysRev.34.02.258
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