Next: Bibliography Up: The GEANT4 Binary Cascade Previous: Modeling overview Contents

Comparison with experiments

We add here a set of preliminary results produced with this code, focusing on neutron and pion production. Given that we are still in the process of writing up the paper, we apologize for the at release time still less then publication quality plots.

**Figure 25.1:** Double differential cross-section for neutrons produced in proton scattering off Aluminum. Proton incident energy was 113 MeV.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_al_113.eps} }$

**Figure 25.2:** Double differential cross-section for neutrons produced in proton scattering off Aluminum. Proton incident energy was 256 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_al_256.eps} }$

**Figure 25.3:** Double differential cross-section for neutrons produced in proton scattering off Aluminum. Proton incident energy was 597 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_al_600.eps} }$

**Figure 25.4:** Double differential cross-section for neutrons produced in proton scattering off Aluminum. Proton incident energy was 800 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_al_800.eps} }$

**Figure 25.5:** Double differential cross-section for neutrons produced in proton scattering off Iron. Proton incident energy was 113 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_fe_113.eps} }$

**Figure 25.6:** Double differential cross-section for neutrons produced in proton scattering off Iron. Proton incident energy was 256 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_fe_256.eps} }$

**Figure 25.7:** Double differential cross-section for neutrons produced in proton scattering off Iron. Proton incident energy was 597 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_fe_600.eps} }$

**Figure 25.8:** Double differential cross-section for neutrons produced in proton scattering off Iron. Proton incident energy was 800 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_fe_800.eps} }$

**Figure 25.9:** Double differential cross-section for neutrons produced in proton scattering off Lead. Proton incident energy was 113 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_pb_113.eps} }$

**Figure 25.10:** Double differential cross-section for neutrons produced in proton scattering off Lead. Proton incident energy was 256 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_pb_256.eps} }$

**Figure 25.11:** Double differential cross-section for neutrons produced in proton scattering off Lead. Proton incident energy was 597 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_pb_600.eps} }$

**Figure 25.12:** Double differential cross-section for neutrons produced in proton scattering off Lead. Proton incident energy was 800 MeV. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/dsdedt_pb_800.eps} }$

**Figure 25.13:** Double differential cross-section for pions produced at $45^\circ$ in proton scattering off various materials. Proton incident energy was 597 MeV in each case. The points are data, the histogram is Binary Cascade prediction.
$\resizebox{0.95\textwidth}{!} { \includegraphics{hadronic/theory_driven/BinaryCascade/pi_45.eps} }$

Next: Bibliography Up: The GEANT4 Binary Cascade Previous: Modeling overview Contents