Spallation neutron production and the current intra-nuclear cascade and transport codes

Filges, D.; Pienkowski, L.; Lott, B.; Jahnke, U.; Tishchenko, V.; Hilscher, D.; Tietze, A.; Schaal, H.; Peghaire, A.; Toke, J.; Galin, J.; Schroeder, U.; Wohlmuther, M.; Sterzenbach, G.; Goldenbaum, F.; Herbach, H. M.; Neef, R.-D.; Nüringhoff, K.; Enke, M.; Letourneau, A.; Paul, N.

doi:10.1007/s100500170058

Journal Article

Spallation neutron production and the current intra-nuclear cascade and transport codes

Filges, D.FZJ* ; Goldenbaum, F.FZJ* ; Enke, M. ; Galin, J. ; Herbach, H. M. ; Hilscher, D. ; Jahnke, U. ; Letourneau, A. ; Lott, B. ; Neef, R.-D.FZJ* ; Nüringhoff, K.FZJ* ; Paul, N.FZJ* ; Peghaire, A. ; Pienkowski, L. ; Schaal, H.FZJ* ; Schroeder, U. ; Sterzenbach, G.FZJ* ; Tietze, A. ; Tishchenko, V. ; Toke, J. ; Wohlmuther, M.

2001
Springer Berlin

The European physical journal / A 11, 467 - 490 (2001) [10.1007/s100500170058]

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Please use a persistent id in citations: doi:10.1007/s100500170058

Abstract: A recent renascent interest in energetic proton-induced production of neutrons originates largely from the inception of projects for target stations of intense spallation neutron sources, like the planned European Spallation Source (ESS), accelerator-driven nuclear reactors, nuclear waste transmutation, and also from the application for radioactive beams. In the framework of such a neutron production, of major importance is the search for ways for the most efficient conversion of the primary beam energy into neutron production. Although the issue has been quite successfully addressed experimentally by varying the incident proton energy for various target materials and by covering a huge collection of different target geometries -providing an exhaustive matrix of benchmark data- the ultimate challenge is to increase the predictive power of transport codes currently on the market. To scrutinize these codes, calculations of reaction cross-sections, hadronic interaction lengths, average neutron multiplicities, neutron multiplicity and energy distributions, and the development of hadronic showers are confronted with recent experimental data of the NESSI collaboration. Program packages like HERMES, LCS or MCNPX master the prevision of reaction cross-sections, hadronic interaction lengths, averaged neutron multiplicities and neutron multiplicity distributions in thick and thin targets for a wide spectrum of incident proton energies, geometrical shapes and materials of the target generally within less than 10% deviation, while production cross-section measurements for light charged particles on thin targets point out that appreciable distinctions exist within these models.

Keyword(s): J

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Note: Record converted from VDB: 12.11.2012

Contributing Institute(s):

Institut 1 (Experimentelle Kernphysik I) (IKP-1)

Research Program(s):

Nukleare Untersuchungen zu Spallations-Neutronenquelle (20.90.0)

Appears in the scientific report 2001

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Document types > Articles > Journal Article
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Record created 2012-11-13, last modified 2018-02-10

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