Residual Nuclide Production by Proton-Induced Reactions on Uranium for Energies between 20 and 70 MeV

M.A.M. Uosif; Al-Azhar University Physics Department; R. Michel; U. Herpers; P.-W. Kubik; M. Duijvestijn; A. Koning

doi:10.1063/1.1945300

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Residual Nuclide Production by Proton-Induced Reactions on Uranium for Energies between 20 and 70 MeV

Journal article

Peer reviewed

Residual Nuclide Production by Proton-Induced Reactions on Uranium for Energies between 20 and 70 MeV

M.A.M. Uosif, Al-Azhar University Physics Department, R. Michel, U. Herpers, P.-W. Kubik, M. Duijvestijn and A. Koning

AIP conference proceedings, Vol.769(1), pp.1547-1550

24/05/2005

DOI: https://doi.org/10.1063/1.1945300

Abstract

ANTIMONY 124

ANTIMONY 126

ANTIMONY 127

BARIUM 140

CADMIUM 115

CERIUM 141

CERIUM 144

CESIUM 134

CESIUM 136

CESIUM 137

COPPER 65

EXCITATION FUNCTIONS

FISSION

FISSION PRODUCTS

GAMMA SPECTROSCOPY

IODINE 131

MEV RANGE

MOLYBDENUM 99

NATURAL URANIUM

NEODYMIUM 147

NEPTUNIUM 238

NIOBIUM 95

NUCLEAR PHYSICS AND RADIATION PHYSICS

PALLADIUM 112

PROTON BEAMS

PROTON REACTIONS

PROTON-NUCLEON INTERACTIONS

PROTONS

RUTHENIUM 103

TELLURIUM 132

YTTRIUM 91

ZINC 65

ZIRCONIUM 95

Within the HINDAS project, proton-irradiation experiments were performed at the injector cyclotron of the Paul Scherrer Institute at Villigen/Switzerland in order to investigate the production of residual nuclides from natural uranium. The stacked-foil technique was used to cover proton energies between 20 MeV and 70 MeV. Copper targets were used for monitoring the proton beam using the reaction 65Cu (p,n)65Zn. Residual radionuclides were measured by off-line {gamma}-spectrometry. Excitation functions were obtained for the production of 91Y, 95Zr, 95mNb, 99Mo, 103Ru, 112Pd, 115Cd, 124Sb, 126Sb, 127Sb, 132Te, 131I, 134Cs, 136Cs, 137Cs, 140Ba, 141Ce, 144Ce, 147Nd, and 238Np. The experimental data are compared to the sparse results of earlier measurements and with theoretical excitation functions calculated by the newly developed TALYS code. Good agreement between theory and experiment was obtained for product masses up to 115. For higher-mass fission products and for 238Np, there are still systematic deviations between theory and experiment. These deviations are discussed as deficits of the fission model in the heavy part of the fission product distribution.

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Title: Residual Nuclide Production by Proton-Induced Reactions on Uranium for Energies between 20 and 70 MeV
Creators - without role: M.A.M. Uosif - Center for Radiation Protection and Radioecology, University Hannover (Germany
Al-Azhar University Physics Department - Egypt)
R. Michel - Center for Radiation Protection and Radioecology, University Hannover (Germany)
U. Herpers - University of Cologne
P.-W. Kubik - Institute for Particle Physics, ETH Hoenggerberg, Zurich (Switzerland)
M. Duijvestijn
A. Koning - Nuclear Research and Consultancy Group
Publication Details: AIP conference proceedings, Vol.769(1), pp.1547-1550
Identifiers: 9912340408331
Academic Unit: Al Jouf University
Language: English
Resource Type: Journal article