High-precision dosimetry
From UCL HEP PBT Wiki
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* <span style="color:#ff0000"> dnageometry </span>: This example simulates track structures of different charge particles within a simplified geometrical model of the DNA molecule contained in a cell nucleus. The output is 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 charge particles within a simplified geometrical model of the DNA molecule contained in a cell nucleus. The output is ntuple with type of particle, type of process, energy deposit and energy loss for every simulation step. | ||
- | * <span style="color:#ff0000"> microbeam </span>: This example simulates the cellular irradiation beam line installed on the [http://www.cenbg.in2p3.fr/-AIFIRA-Home-?lang=en AIFIRA] electrostatic accelerator facility located at [http://www.cenbg.in2p3.fr/ CENBG], Bordeaux-Gradignan, France. This accelerator is mainly used to investigate the effects of low dose irradiation on living cells. A realistic cell phantom is obtained from confocal microscopy and from ion beam anlysis techniques. Alpha particles of 3 MeV are incident on this phantom. The output is | + | * <span style="color:#ff0000"> microbeam </span>: This example simulates the cellular irradiation beam line installed on the [http://www.cenbg.in2p3.fr/-AIFIRA-Home-?lang=en AIFIRA] electrostatic accelerator facility located at [http://www.cenbg.in2p3.fr/ CENBG], Bordeaux-Gradignan, France. This accelerator is mainly used to investigate the effects of low dose irradiation on living cells. A realistic cell phantom is obtained from confocal microscopy and from ion beam anlysis techniques. Alpha particles of 3 MeV are incident on this phantom. The output is dose deposited in the cell cytoplasm and in the cell nucleus. |
== <span style="color:#000080"> How to run the tutorial </span> == | == <span style="color:#000080"> How to run the tutorial </span> == |