High-precision dosimetry

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This tutorial is based on the [http://geant4-dna.org/ Geant4-DNA project] tutorials. We chose to show three of the examples:
This tutorial is based on the [http://geant4-dna.org/ Geant4-DNA project] tutorials. We chose to show three of the examples:
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* <span style="color:#ff0000"> dnaphysics </span>: This example simulates track structures in 100-micron side cube made of liquid water. The physics processes are defined using class '''G4EmDNAPhysics'''. [http://geant4-dna.in2p3.fr/styled-3/styled-8/index.html Here] you can find more information about the different physics process that are used to build class '''G4EmDNAPhysics''' . [http://geant4-dna.in2p3.fr/styled-3/styled-9/index.html Here] you can find how to build your own '''G4EmDNAPhysics''' class. The incident particles are generated using class '''G4ParticleGun''' and are shot from the center of the cube. The output of this tutorial is a root ntuple with type of particle, type of process, energy deposit and energy loss for every simulation step.   
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* <span style="color:#ff0000"> dnaphysics </span>: This example simulates track structures in 100-micron side cube made of liquid water. The physics processes are defined using class '''G4EmDNAPhysics'''. [http://geant4-dna.in2p3.fr/styled-3/styled-8/index.html Here] you can find more information about the different physics process that are used to build class '''G4EmDNAPhysics''' . [http://geant4-dna.in2p3.fr/styled-3/styled-9/index.html Here] you can find how to build your own '''G4EmDNAPhysics''' class. Electron beam is simulated using class '''G4ParticleGun''' and is shot from the center of the cube. The output of this tutorial is a root ntuple with type of particle, type of process, energy deposit and energy loss for every simulation step.   
* <span style="color:#ff0000"> dnageometry </span>: This example simulates track structures of different charged particles within a simplified geometrical model of the DNA molecule contained in a cell nucleus. The output is a root ntuple with type of particle, type of process, energy deposit and energy loss for every simulation step.  
* <span style="color:#ff0000"> dnageometry </span>: This example simulates track structures of different charged particles within a simplified geometrical model of the DNA molecule contained in a cell nucleus. The output is a root ntuple with type of particle, type of process, energy deposit and energy loss for every simulation step.  

Revision as of 14:53, 1 September 2014

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