Software/Geant4/Tutorials/PBTCVMFS: Difference between revisions
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* [[/B1 Basic Example|B1 Basic Example]] is a very simple application where an energy deposit is accounted in user actions and their associated objects | * [[/B1 Basic Example|B1 Basic Example]] is a very simple application where an energy deposit is accounted in user actions and their associated objects and a dose in a selected volume is calculated. | ||
* [[/Monoenergetic Proton Pencil Beam|Monoenergetic Proton Pencil Beam]] is a simple code which shows the dose deposition in water along the incident monoenergetic proton beam. | * [[/Monoenergetic Proton Pencil Beam|Monoenergetic Proton Pencil Beam]] is a simple code which shows the dose deposition in water along the incident monoenergetic proton beam. | ||
* [[/Proton Beam With Realistic Geometry|Proton Beam With Realistic Geometry]] is a simple code with realistic geometry of the proton beam. The primary particles are generated with initial energy, position and direction described by Gaussian distributions. Computed is the dose deposition in water along the beam. | * [[/Proton Beam With Realistic Geometry|Proton Beam With Realistic Geometry]] is a simple code with realistic geometry of the proton beam. The primary particles are generated with initial energy, position and direction described by Gaussian distributions. Computed is the dose deposition in water along the beam. | ||
* [[/Several Proton Beams With Spread Out Bragg Peaks|Several Proton Beams With Spread Out Bragg Peaks]] is a simple code which shows the dose deposition in water from several incident monoenergetic proton beams. | * [[/Several Proton Beams With Spread Out Bragg Peaks|Several Proton Beams With Spread Out Bragg Peaks]] is a simple code which shows the dose deposition in water from several incident monoenergetic proton beams. | ||
Latest revision as of 14:21, 25 November 2024
- B1 Basic Example is a very simple application where an energy deposit is accounted in user actions and their associated objects and a dose in a selected volume is calculated.
- Monoenergetic Proton Pencil Beam is a simple code which shows the dose deposition in water along the incident monoenergetic proton beam.
- Proton Beam With Realistic Geometry is a simple code with realistic geometry of the proton beam. The primary particles are generated with initial energy, position and direction described by Gaussian distributions. Computed is the dose deposition in water along the beam.
- Several Proton Beams With Spread Out Bragg Peaks is a simple code which shows the dose deposition in water from several incident monoenergetic proton beams.