Advanced Examples¶
Geant4 advanced examples illustrate realistic applications of Geant4 in typical experimental environments. Most of them also show the usage of analysis tools (such as histograms, ntuples and plotting), various visualization features and advanced user interface facilities, together with the simulation core.
Note
Maintenance and updates of the code is under the responsibility of the authors. No guarantee can be provided on the functionality and the accuracy deriving from the simulation results.
The advanced examples are fully documented here, below is a summary of what is available:
Example Name |
Short Description |
|---|---|
Modelling of the ULTRA experiment, EUSO mission |
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Modelling of the electromagnetic Calorimeter (ECAL) of the AMS-02 experiment |
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Calculation of dose in a phantom, in the context of brachytherapy |
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Demonstration of the G4Opticks hybrid workflow for the creation and propagation of optical photons on GPUs |
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Simulation of hadronic physics experiments of the Petersburg Nuclear Physics Institute (PNPI, Russia) |
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Example of a test-beam simulation used by the CMS |
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Modelling of a PET scintillator system |
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eFLASH_radiotherapy |
Modelling of a FLASH radiotherapy beamline |
Modelling of eROSITA astronomical X-ray full-sky survey mission on-board the Spectrum-X-Gamma space mission |
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Modelling of detectors and their response for microdosimetry for radiation protection in space |
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Development of a custom geometry class for accurately and efficiently simulating aerosols with many droplets |
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Simulation of an advanced device for Stereotactic Radiosurgery |
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Model of a typical telescope for gamma ray analysis in the context of space exploration |
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Turn-key application for radiation analysis and spacecraft design built on top of Geant4 |
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Model of hadrontherapy beamlines |
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Demonstration of a high-end High Energy Physics test beam setup, for the endcap electromagnetic calorimeter of the CMS detector CERN-LHCC-2017-023 |
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Calculation of dose in analytical anthropomorphic phantoms |
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Calculation of dose in ICRP110 anthorpomorphic phantoms |
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ICRP145_HumanPhantoms |
Calculation of dose in ICRP145 anthorpomorphic phantoms |
Model of a typical Intraoperative Radiation Therapy beamline |
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Simulation of the Forward Liquid Argon Calorimeter (FCAL) of the ATLAS Detector, CERN, Switzerland |
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Model of a typical medical linear accelerator for Intensity Modulated Radiation Therapy (IMRT) |
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Simulation of the microbeam cellular irradiation beam line installed on the AIFIRA electrostatic accelerator facility located at LP2i Bordeaux, France |
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Demonstration on how to activate track structure physics models for electrons in a silicon microelectronics device |
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Simulation of the beam optics of the “nanobeam line” installed on the AIFIRA electrostatic accelerator facility located at LP2i Bordeaux, France |
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Modelling of electrons traveling through a 3D magnetic field in the radiotherapy context |
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Model of the solid target of the South Australian Health and Medical Research Institute (SAHMRI), Adelaide, South Australia |
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Simulation of three dimensional proton micro-tomography |
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underground_physics |
Example of an underground dark matter experiment. More details are provided in the README file accompanying the example |
xray_fluorescence |
Example reproducing various setups for PIXE and XRF experiments. More details are provided in the README file accompanying the example |
Simulation of a typical X-ray telescope for space exploration |
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Application of Geant4 in a space environment. Model of an X-ray detector derived from the X-IFU, the X-ray spectrometer designed and developed by the European Space Agency (ESA) for use on the ATHENA telescope. |
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Model of a single reflective pore used to simulate on a smaller scale the effect of the millions of pores forming the mirror of the ATHENA Silicon Pore Optics (SPO). |