Neutron-Nucleus Collisions: A Probe of Nuclear StructureRapaport |
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Page 110
... neutron energy range of 120 to 800 MeV . At high neutron energy is a relatively sharp peak to be discussed below . The other prominent feature , at Tn ~ 500 MeV , corresponds to the creation of a △ resonance in the scattering process ...
... neutron energy range of 120 to 800 MeV . At high neutron energy is a relatively sharp peak to be discussed below . The other prominent feature , at Tn ~ 500 MeV , corresponds to the creation of a △ resonance in the scattering process ...
Page 278
... energy neutrons . The situation is illustrated for the T ( d , n ) reaction in Fig . 6 ENERGY RESOLUTION One of the earliest ideas we are taught about neutron time- of - flight spectroscopy is that the energy resolution gets rapidly ...
... energy neutrons . The situation is illustrated for the T ( d , n ) reaction in Fig . 6 ENERGY RESOLUTION One of the earliest ideas we are taught about neutron time- of - flight spectroscopy is that the energy resolution gets rapidly ...
Page 289
... neutron dose with an accuracy of a few percent is very difficult for several reasons : Most clinical neutron beams have continuous energy spectra extending up to 30 MeV or even 60 MeV neutron energy . In addition to neutrons , there are ...
... neutron dose with an accuracy of a few percent is very difficult for several reasons : Most clinical neutron beams have continuous energy spectra extending up to 30 MeV or even 60 MeV neutron energy . In addition to neutrons , there are ...
Contents
Implication of microscopic reaction analyses below | 14 |
Test of effective interactions for nucleon scattering | 90 |
SESSION | 301 |
Copyright | |
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Common terms and phrases
1985 American Institute analysis angular distributions average calculations central potential channels charged particle conference topics Copyright 1985 American coupling cyclotron deformation detectors Deuterons effective interaction elastic and inelastic energy dependence energy range energy resolution experimental Fermi gas fission flight path imaginary potential inelastic scattering Institute of Physics intermediate isospin isovector Laboratory Lett level density low energy magnet matrix elements mb/sr measurements microscopic neutron and proton neutron beam neutron energy Neutron Facilities neutron scattering neutron source Nucl nuclear structure nuclei nucleon obtained Ohio University optical model optical potential parameters parity peak phenomenological Phys pions Polarized intensity probe proton proton and neutron pulse R-matrix ratio reaction related to conference resonance s-process s-wave sensitivity shell shell model shown in Fig solid angle Spectrometers spin strength studies swinger tion total cross section transition densities values volume integrals wave functions width