Monoenergetic proton pencil beam
From UCL HEP PBT Wiki
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This example shows the dose distribution in water along the incident proton beam. The beam hits the water cube surface and deposits a dose under the surface of the water. The volume of the water cube is divided into slices perpendicular to the incident beam. At each slice the deposited dose and energy is computed. | This example shows the dose distribution in water along the incident proton beam. The beam hits the water cube surface and deposits a dose under the surface of the water. The volume of the water cube is divided into slices perpendicular to the incident beam. At each slice the deposited dose and energy is computed. | ||
- | The slices are created using class '''G4PVReplica'''. The energy and dose are scored using classes '''G4UserSteppingAction''' and '''G4UserRunAction'''. Alternatively, the energy and dose are scored using class '''G4ScoringManager''' by defining two scoring meshes in | + | The slices are created using class '''G4PVReplica'''. The energy and the dose are scored using classes '''G4UserSteppingAction''' and '''G4UserRunAction'''. Alternatively, the energy and the dose are scored using class '''G4ScoringManager''' by defining two scoring meshes in longitudinal and lateral direction of the beam. More information about the scoring meshes can be found [https://geant4.web.cern.ch/geant4/UserDocumentation/UsersGuides/ForApplicationDeveloper/html/ch04s08.html here]. The protons are generated using '''G4ParticleGun''' class. There is an option to chose among several '''EM''' and the '''QGSP_BIC_EMY''' physics lists. |
http://www.hep.ucl.ac.uk/pbt/RadiotherapyWorkbook/skins/common/images/ProtonPB/g4_00_6000e.png | http://www.hep.ucl.ac.uk/pbt/RadiotherapyWorkbook/skins/common/images/ProtonPB/g4_00_6000e.png |