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Improvements of ultra-relativistic quantum molecular dynamics model simulated by spallation neutron data induced by 1.2 GeV protons on Al, Fe and Zr

Journal of Physics G Nuclear and Particle Physics • 2005
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Publication Information
Authors Khaled Abdel-Waged
Keywords Not Available
Journal Journal of Physics G Nuclear and Particle Physics
Publisher Not Available
Volume 31
Issue 05
Pages Not Available
publication.type International
Paper Link Not Available
Supplementary Materials Not Available
Abstract
The ultra-relativistic quantum molecular dynamics (UrQMD) model is developed for neutron spallation production from ≈1 GeV proton-induced reactions. Improvements in the dynamical content of the standard UrQMD model include: (i) an initial ground state which reproduces the experimental root mean square radii; (ii) a momentum-dependent Pauli potential and (iii) medium-modified angular distributions for quasi-inelastic NN scattering and the reverse NΔ → NN reaction. It is shown that, in conjunction with the generalized evaporation model, the improved UrQMD model is able to reproduce the whole energy-angle neutron double differential cross sections in the interactions of proton on Al, Fe and Zr at 1.2 GeV.