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. Simulated is a an electron beam using class '''G4ParticleGun'''. The beam is shot from the center of the cube. The output of this tutorial is a root ntuple with type of particle, type of physics 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. Simulated is a an electron beam using class '''G4ParticleGun'''. The beam is shot from the center of the cube. The output of this tutorial is a root ntuple with type of particle, type of physics process, energy deposit, energy loss and step length 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 in a cell nucleus. Proton beam is simulated using class '''G4ParticleGun'''. The physics processes are defined using class '''G4EmDNAPhysics'''. The output is a root ntuple with type of particle, type of physics process, energy deposit and step length 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 in a cell nucleus. Proton beam is simulated using class '''G4ParticleGun'''. The physics processes are defined using class '''G4EmDNAPhysics'''. The output is a root ntuple with type of particle, type of physics process, energy deposit and step length for every simulation step.  

Revision as of 16:11, 1 September 2014

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