MAKII, H.; NISHIO, K.; HIROSE, K.; ORLANDI, R.; LÉGUILLON, R.; OGAWA, T.; SOLDNER, T.; KÖSTER, U.; POLLITT, A.; HAMBSCH, F.J.; TSEKHANOVICH, I.; AÏCHE, M.; CZAJKOWSKI, S.; MATHIEU, L.; PETRACHE, C.M.; ASTIER, A.; GUO, S.; OHTSUKI, T.; SEKIMOTO, S.; TAKAMIYA, K.; FROST, R.J.W.; KAWANO, T.

doi:10.1103/PhysRevC.100.044610

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Phys.Rev.C. 2019, vol. 100, n° 4, p. 044610

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The prompt fission γ-ray energy spectrum for cold-neutron-induced fission of U235 was measured in the energy range Eγ=0.8–20MeV, by gaining a factor of about 105 in statistics compared to the measurements performed so far. The spectrum exhibits local bump structures at Eγ≈4MeV and ≈6MeV, and also a broad one at ≈15MeV. In order to understand the origins of these bumps, the γ-ray spectra were calculated using a statistical Hauser-Feshbach model, taking into account the deexcitation of all the possible primary fission fragments. It is shown that the bump at ≈4MeV is created by the transitions between the discrete levels in the fragments around Sn132, and the bump at ≈6MeV mostly comes from the complementary light fragments. It is also indicated that a limited number of nuclides, which have high-spin states at low excitation energies, can contribute to the bump structure around Eγ≈15MeV, induced by the transition feeding into the low-lying high-spin states.Read less <

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Nuclear Reactions

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Effects of the nuclear structure of fission fragments on the high-energy prompt fission $\gamma$-ray spectrum in $^{235}\mathrm{U}({n}_{\mathrm{th}},f)$

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