Articles citing this paper
Prompt Neutrons From 236U Fission Fragments
JW Boldeman, AR de L Musgrove and RL Walsh
24(4) pp.821 - 834
39 articles found in Crossref database.
Excitation energy partition in fission
Albertsson M.,
Carlsson B.G.,
Døssing T.,
Möller P.,
Randrup J., Åberg S.
Physics Letters B. 2020 803 p.135276
Angular correlation of neutrons from thermal-neutron fission of 235U
Franklyn C.B.,
Hofmeyer C., Mingay D.W.
Physics Letters B. 1978 78(5). p.564
Independent isomeric yield ratio ofPm148in fission of the moderately excitedU236compound nucleus as a measure of fragment angular momentum
Aumann D. C.,
Gückel W.,
Nirschl E., Zeising H.
Physical Review C. 1977 16(1). p.254
General Description of Fission Observables: GEF Model Code
Schmidt K.-H.,
Jurado B.,
Amouroux C., Schmitt C.
Nuclear Data Sheets. 2016 131 p.107
What Do We Know About Nuclear Fission?
Aumann Dieter C.
Angewandte Chemie International Edition in English. 1975 14(3). p.117
Variation of even-odd proton effects with excitation energy in fission of 252Cf: Confirmation of fine structure in v(A)
Walsh R.L.
Nuclear Physics A. 1987 469(2). p.333
Nuclear-charge distribution and delayed-neutron yields for thermal-neutron-induced fission of 235U, 233U, and 239Pu and for spontaneous fission of 252Cf
Wahl Arthur C.
Atomic Data and Nuclear Data Tables. 1988 39(1). p.1
Simultaneous Measurement of Prompt Neutrons and Fission Fragments for 239Pu(nth,f)
TSUCHIYA Chikafumi,
NAKAGOME Yoshihiro,
YAMANA Hajimu,
MORIYAMA Hirotake,
NISHIO Katsuhisa,
KANNO Ikuo,
SHIN Kazuo, KIMURA Itsuro
Journal of Nuclear Science and Technology. 2000 37(11). p.941
Hauser-Feshbach fission fragment de-excitation with calculated macroscopic-microscopic mass yields
Jaffke Patrick,
Möller Peter,
Talou Patrick, Sierk Arnold J.
Physical Review C. 2018 97(3).
Energy sharing based on microscopic level densities
Randrup Jørgen,
Albertsson Martin,
Carlsson Gillis,
Døssing Thomas,
Möller Peter,
Åberg Sven,
Carjan N., Oberstedt S.
EPJ Web of Conferences. 2021 256 p.00013
Prompt neutron emission and energy balance in 235U(n,f)
Göök Alf,
Hambsch Franz-Josef,
Oberstedt Stephan,
Plompen A.,
Hambsch F.-J.,
Schillebeeckx P.,
Mondelaers W.,
Heyse J.,
Kopecky S.,
Siegler P., Oberstedt S.
EPJ Web of Conferences. 2017 146 p.04007
Fragment velocities, energies, and masses from fast neutron induced fission ofU235
Müller R.,
Naqvi A. A.,
Käppeler F., Dickmann F.
Physical Review C. 1984 29(3). p.885
Was wissen wir heute über die Kernspaltung?
Aumann Dieter C.
Angewandte Chemie. 1975 87(3). p.77
Systematics of nuclear charge distribution in fission the ZP model
Wahl A. C.
Journal of Radioanalytical Chemistry. 1980 55(1). p.111
Neutron Emission, Mass Distribution and Energetics in 14.5 MeV-Neutron Induced Fission of Uranium-238
YAMAMOTO Hisao,
MORI Yoshiharu,
WAKUTA Yoshihisa,
KATASE Akira, SONODA Masateru
Journal of Nuclear Science and Technology. 1979 16(11). p.779
Low Energy Neutrons and their Interaction with Nuclei and Matter. Part 1 (2000)
Charge division mechanism in low energy binary fission and the passage of prompt fragments towards theβ-stable products in terms of the double core model
Basu P,
Bhattacharya P, Chatterjee M L
Pramana. 1985 25(2). p.165
Multiplicity and energy of neutrons from 235U(nth,f) fission fragments
Nishio K.,
Nakagome Y.,
Yamamoto H., Kimura I.
Nuclear Physics A. 1998 632(4). p.540
Neutron emission and fragment yield in high-energy fission
Grudzevich O. T., Klinov D. A.
Physics of Atomic Nuclei. 2013 76(7). p.797
Analysis of prompt neutron anisotropies in thermal neutron fission of235U
Govil R, Choudhury R K
Journal of Physics G: Nuclear Physics. 1981 7(1). p.59
Simultaneous Measurement of Prompt Neutrons and Fission Fragments for 239Pu(nth,f)
TSUCHIYA Chikafumi,
NAKAGOME Yoshihiro,
YAMANA Hajimu,
MORIYAMA Hirotake,
NISHIO Katsuhisa,
KANNO Ikuo,
SHIN Kazuo, KIMURA Itsuro
Journal of Nuclear Science and Technology. 2000 37(11). p.941
On the Effect of Scission Neutrons on v(A) Data for 252Cf(sf)
Walsh R. L., Boldeman J. W.
Nuclear Science and Engineering. 1984 88(4). p.598
Prediction of the Prompt Neutron Multiplicity Distributionν(A) for235U(n,f) and239Pu(n,f) in the Incident Energy Range of Multichance Fission
Tudora Anabella,
Hambsch Franz-Josef, Tobosaru Viorel
Nuclear Science and Engineering. 2018 192(1). p.52
Measurement of Level Density Parameters of Fission Fragments Following Thermal Neutron Induced Fission of Uranium-235
NISHIO Katsuhisa,
KIMURA Itsuro, NAKAGOME Yoshihiro
Journal of Nuclear Science and Technology. 1997 34(5). p.439
Distribution of mass in thermal-neutron-induced fission ofFm257
Flynn K. F.,
Gindler J. E., Glendenin L. E.
Physical Review C. 1975 12(5). p.1478
Prompt fission neutron emission in the reaction 235U(n,f)
Göök Alf,
Hambsch Franz-Josef,
Oberstedt Stephan,
Hambsch F.-J.,
Carjan N., Ruskov I.
EPJ Web of Conferences. 2018 169 p.00004
Multi-parametric Measurement of Prompt Neutrons and Fission Fragments for 233U(n th, f)
NISHIO Katsuhisa,
NAKASHIMA Manabu,
KIMURA Itsuro, NAKAGOME Yoshihiro
Journal of Nuclear Science and Technology. 1998 35(9). p.631
A methodology for the intercomparison of nuclear fission codes using TALYS
Mattera Andrea,
Al-Adili Ali,
Lantz Mattias,
Pomp Stephan,
Rakopoulos Vasileios,
Solders Andreas,
Plompen A.,
Hambsch F.-J.,
Schillebeeckx P.,
Mondelaers W.,
Heyse J.,
Kopecky S.,
Siegler P., Oberstedt S.
EPJ Web of Conferences. 2017 146 p.04047
Charge distributions for the photofission ofU235andU238with 12—30 MeV bremsstrahlung
De Frenne D.,
Thierens H.,
Proot B.,
Jacobs E.,
De Gelder P.,
De Clercq A., Westmeier W.
Physical Review C. 1982 26(4). p.1356
Prompt fission neutron yields in thermal fission ofU235and spontaneous fission ofCf252
Al-Adili A.,
Tarrío D.,
Jansson K.,
Rakopoulos V.,
Solders A.,
Pomp S.,
Göök A.,
Hambsch F.-J.,
Oberstedt S., Vidali M.
Physical Review C. 2020 102(6).
A system for correlation measurement of fission fragments and prompt neutrons for thermal neutron induced fission
Nishio K,
Yamamoto H,
Kanno I,
Kimura I, Nakagome Y
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 1997 385(1). p.171
Fine structure in the neutron emission ν(A) from 252Cf spontaneous fission fragments
Walsh R.L., Boldeman J.W.
Nuclear Physics A. 1977 276(2). p.189
Neutron emission in fission
Kornilov N.V.,
Hambsch F.-J., Vorobyev A.S.
Nuclear Physics A. 2007 789(1-4). p.55
Pre-neutron emission average total kinetic energy of fission fragments
Denisov V.Yu.
Atomic Data and Nuclear Data Tables. 2023 152 p.101582
Dependence of neutron yield on fragment mass for several low-energy fissioning systems
Gindler J.
Physical Review C. 1979 19(5). p.1806
Distributions of fission products from various low-energy fission reactions and the systematics of the odd-even fluctuations
Amiel S.,
Feldstein H., Izak-Biran T.
Physical Review C. 1977 15(6). p.2119
Yields of In and Sn products from thermal- and 14-MeV-neutron-induced fission ofU235
Semkow Tomasz M.,
Wahl Arthur C., Robinson Larry
Physical Review C. 1984 30(6). p.1966
Event-by-event study of neutron observables in spontaneous and thermal fission
Vogt R., Randrup J.
Physical Review C. 2011 84(4).
Measurement of Gamma-Ray Multiplicity Emitted in the Alpha-Induced Fission of232Th
Hamagaki Hideki,
Shida Yoshijiro,
Kamitsubo Hiromichi,
Kawakami Hirokane,
Kurihara Toru,
Yoshikawa Nobuharu, Sakai Mitsuo
Journal of the Physical Society of Japan. 1985 54(7). p.2453
