NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = P.Jaffke Found 12 matches. 2021TA33 Comput.Phys.Commun. 269, 108087 (2021) P.Talou, I.Stetcu, P.Jaffke, M.E.Rising, A.E.Lovell, T.Kawano Fission fragment decay simulations with the CGMFcode RADIOACTIVITY 252Cf(SF); calculated fission fragment mass yields. NUCLEAR REACTIONS 235U(n, F), E=0.0000000253, 2, 5 MeV; calculated fission fragment mass yields.
doi: 10.1016/j.cpc.2021.108087
2020MU06 Phys.Rev. C 101, 054607 (2020) M.R.Mumpower, P.Jaffke, M.Verriere, J.Randrup Primary fission fragment mass yields across the chart of nuclides NUCLEAR REACTIONS 226Th, 235U, 259Md, 276No(n, F)227Th/236U/260Md/277No, T=0.5-1.5 MeV; 229Th, 237Np, 239Pu, 245Cm, 255,257Fm(n, F)230Th/238Np/240Pu/246Cm/256Fm/258Fm, E*=5.8-6.8 MeV; 205At, 208Rn, 209Fr, 211Ra, 216Ac, 222Th, 230Pa, 233U(n, F)206At/209Rn/210Fr/212Ra/217Ac/223Th/231Pa/234U, E*=11 MeV; calculated mass yield distributions. 236U, 240Pu, 234Cm; calculated projected potential energy surfaces. Z=80-130, A=171-330: calculated mass yield distributions for 3800 nuclei listed as tabular text files in the supplementary material. Finite-Range Liquid-Drop Model (FRLDM). Comparison with experimental data.
doi: 10.1103/PhysRevC.101.054607
2020SU19 Phys.Rev. C 102, 034616 (2020) F.Sutanto, O.A.Akindele, M.Askins, M.Bergevin, A.Bernstein, N.S.Bowden, S.Dazeley, P.Jaffke, I.Jovanovic, S.Quillin, C.Roecker, S.D.Rountree Measurement of muon-induced high-energy neutrons from rock in an underground Gd-doped water detector
doi: 10.1103/PhysRevC.102.034616
2019FO04 Phys.Rev. C 99, 024606 (2019) N.Fotiades, P.Casoli, P.Jaffke, M.Devlin, R.O.Nelson, T.Granier, P.Talou, T.Ethvignot Prompt fission product yields in the 238U(n, f) reaction NUCLEAR REACTIONS 238U(n, F), E=fast; measured Eγ, Iγ, partial γ-ray σ(E) using GEANIE array for γ detection at the LANSCE-WNR-LANL facility; deduced fission yields of 92Kr, 94,96,98Sr, 100,102,104Zr, 104,106Mo, 128,132Sn, 134,138Te, 138,140Xe, 144,146,148Ba, 150Ce. Comparison with model calculations using CGMF code, and with previous experimental results from γγ-coin technique.
doi: 10.1103/PhysRevC.99.024606
2018CH34 Phys.Lett. B 782, 652 (2018) A.Chyzh, P.Jaffke, C.Y.Wu, R.A.Henderson, P.Talou, I.Stetcu, J.Henderson, M.Q.Buckner, S.A.Sheets, R.Hughes, B.Wang, J.L.Ullmann, S.Mosby, T.A.Bredeweg, A.C.Hayes-Sterbenz, J.M.O'Donnell Dependence of the prompt fission γ-ray spectrum on the entrance channel of compound nucleus: Spontaneous vs. neutron-induced fission RADIOACTIVITY 240,242Pu(SF); measured decay products, Eγ, Iγ; deduced prompt γ-ray spectra. NUCLEAR REACTIONS 239,241Pu(n, F), E ∼ 100 keV; measured reaction products, Eγ, Iγ; deduced prompt fission γ-ray energy spectra. Comparison with Monte Carlo Hauser-Feshbach statistical model for the neutron-induced fission.
doi: 10.1016/j.physletb.2018.06.006
2018JA05 Phys.Rev. C 97, 034608 (2018) P.Jaffke, P.Moller, P.Talou, A.J.Sierk Hauser-Feshbach fission fragment de-excitation with calculated macroscopic-microscopic mass yields NUCLEAR REACTIONS 235U, 239Pu(n, F), E=thermal; calculated pre-neutron-emission mass yields using various data sources in the three-Gaussian parametrization, average prompt neutron energy, average prompt γ-ray multiplicity, and average γ-ray energy, prompt neutron multiplicity distribution, correlation between average total kinetic energy of the fragments (TKE) and the average prompt neutron multiplicity, and normalized prompt fission neutron and γ spectra (PFNS, PFGS). Hauser-Feshbach statistical model with input mass yields from macroscopic-microscopic models of the potential energy surface for fragment mass yields, and emission of prompt neutrons and γ rays. Comparison with experimental data, and evaluations in ENDF/B-VIII.0.
doi: 10.1103/PhysRevC.97.034608
2018JA08 Nucl.Sci.Eng. 190, 258 (2018) Identifying Inconsistencies in Fission Product Yield Evaluations with Prompt Neutron Emission NUCLEAR REACTIONS 233,235,238U, 239,241Pu(n, F)1NN, E thermal; analyzed available data; deduced inconsistencies.
doi: 10.1080/00295639.2018.1429173
2018OK05 J.Nucl.Sci.Technol.(Tokyo) 55, 1 (2018) S.Okumura, To.Kawano, P.Jaffke, P.Talou, S.Chiba 235U(n, f) Independent fission product yield and isomeric ratio calculated with the statistical Hauser-Feshbach theory NUCLEAR REACTIONS 235U(n, F), E thermal; calculated Independent fission product yield and isomeric ratio using statistical Hauser-Feshbach theory.
doi: 10.1080/00223131.2018.1467288
2018TA05 Eur.Phys.J. A 54, 9 (2018) P.Talou, R.Vogt, J.Randrup, M.E.Rising, S.A.Pozzi, J.Verbeke, M.T.Andrews, S.D.Clarke, P.Jaffke, M.Jandel, T.Kawano, M.J.Marcath, K.Meierbachtol, L.Nakae, G.Rusev, A.Sood, I.Stetcu, C.Walker Correlated prompt fission data in transport simulations COMPILATION 235U, 239Pu(n, F), E=thermal;252Cf(SF); compiled average prompt fission neutron multiplicity vs fragment mass, prompt fission neutron σ(En), γ-decay energy spectrum σ(Eγ), γ multiplicity, n-n angular correlation. Calculated σ, yields using FREYA and CGMF codes. Compared with data.
doi: 10.1140/epja/i2018-12455-0
2018ZH34 Astrophys.J. 863, L23 (2018) Y.Zhu, R.T.Wollaeger, N.Vassh, R.Surman, T.M.Sprouse, M.R.Mumpower, P.Moller, G.C.McLaughlin, O.Korobkin, T.Kawano, P.J.Jaffke, E.M.Holmbeck, C.L.Fryer, W.P.Even, A.J.Couture, J.Barnes Californium-254 and Kilonova Light Curves RADIOACTIVITY 254Cf(SF); calculated abundance, fission product yields, heating rates, mid-IR light curves.
doi: 10.3847/2041-8213/aad5de
2016HU05 Phys.Rev.Lett. 116, 122503 (2016) Neutron Capture and the Antineutrino Yield from Nuclear Reactors NUCLEAR REACTIONS 235U, 239,241Pu(n, F)100Tc/104Rh/110Ag/142Pr, E thermal; analyzed available data; deduced flux-dependent correction to the antineutrino spectrum as produced in nuclear reactors. SCALE-6.1 calculations.
doi: 10.1103/PhysRevLett.116.122503
2014CH27 Phys.Rev.Lett. 113, 042503 (2014) E.Christensen, P.Huber, P.Jaffke, T.E.Shea Antineutrino Monitoring for Heavy Water Reactors
doi: 10.1103/PhysRevLett.113.042503
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