Advanced Examples

Purpose

The Advanced Examples illustrate realistic applications of Geant4 in typical experimental environments. They are developed in collaboration with user groups expert in the corresponding experimental domain. The code of the developed examples can be dowloaded together with the Geant4 toolkit in the directory examples/advanced.

Mailing list:

geant4-advanced-examples@cern.ch

Members

Show responsibility

  • Francesco Romano(coordinator)

    • eFLASH_radiotherapy

    • gammaknife

    • iort_therapy

    • exp_microdosimetry

  • Miguel Antonio Cortes-Giraldo(deputy)

  • Anh Tuan Le

    • dsbandrepair
  • John Apostolakis

    • purging_magnet
  • Makoto Asai

    • gorad
  • David Bolst

    • exp_microdosimetry
  • Jeremy Brown

  • Barbara Caccia

    • medical linac
  • Pablo Caron

    • microelectronics
  • G. A. Pablo Cirrone

    • hadrontherapy

    • medical_linac

  • Gabriele Cosmo

  • Paolo Dondero

    • xray_SiliconPoreOptics

    • xray_TESdetector

  • Milos Dordevic

    • hadrontherapy
  • Susanna Guatelli

    • brachytherapy

    • doiPET

    • human_phantom

    • ICRP110_HumanPhantoms

    • ICRP145_HumanPhantoms

    • exp_microdosimetry

    • STCyclotron

  • Haegin Han

    • ICRP145_HumanPhantoms
  • Alexander Howard

    • underground_physics
  • Sebastien Incerti

    • microbeam

    • nanobeam

  • Christophe Inguimbert

    • microelectronics
  • Ara Knaian

    • fastAerosol
  • Damien Lambert

    • microelectronics
  • Zhuxin Li

    • stim_pixe_tomography
  • Francesco Longo

    • eRosita

    • gammaray_telescope

  • Michel Maire

    • ams_Ecal
  • Carlo Mancini Terracciano

    • medical_linac
  • Alfonso Mantero

    • xray_fluorescence
  • Nate McFadden

    • fastAerosol
  • Claire Michelet

    • stim_pixe_tomography
  • Giuliana Miluzzo

    • eFLASH_radiotherapy

    • gammaknife

    • iort_therapy

    • exp_microdosimetry

  • Bernardo Neto Gomes Baptista Tome

    • air_shower
  • Luciano Pandola

  • Giada Petringa

    • hadrontherapy
  • Ivan Petrovic

    • hadrontherapy
  • Andrea Polsini

    • eRosita

    • gammaray_telescope

  • Alexey Radkov

    • ChargeExchangeMC
  • Alberto Ribon

    • composite_calorimeter
  • Aleksandra Ristic Fira

    • hadrontherapy
  • Giorgio Russo

  • Giovanni Santin

    • xray_telescope
  • Alberto Sciuto

    • hadrontherapy
  • Ronny Stanzani

    • xray_SiliconPoreOptics

    • xray_TESdetector

  • Alvaro Tolosa Delgado

    • Contribution to maintenance and upgrade
  • Hans-Joachim Wenzel

    • CaTS
  • Anna Zaborowska

    • HGCal_testbeam

Responsible categories

Contact

Current Developments

  • S. Guatelli & F. Romano, - S. Guatelli & F. Romano, Update on Advanced Examples, 28th Geant4 Collaboration Meeting, 2023 link

Presentations of developments of the past 5 years:

  • S. Guatelli & F. Romano, Update on Advanced Examples: summary, 28th Geant4 Collaboration Meeting, 2023 link

  • S. Guatelli & F. Romano, Update on Advanced Examples: summary, 27th Geant4 Collaboration Meeting, 2022 link

  • S. Guatelli & F. Romano, Update on Advanced Examples: summary, 26th Geant4 Collaboration Meeting, 2021 link

  • S. Guatelli & F. Romano, Status and recent developments in the Geant4 Advanced Examples: summary, 25th Geant4 Collaboration Meeting, 2020 link
  • S. Guatelli & F. Romano, Geant4 Advanced Examples: progress, 24th Geant4 Collaboration Meeting, 2019 link
  • I. Hrivnacova & S. Guatelli, Parallel Session 6B: Basic, Extended & Advanced Examples, 23rd Geant4 Collaboration Meeting, 2018 link
  • F. Romano, Advanced examples: updates and plan, 23rd Geant4 Collaboration Meeting, 2017 link

Working plans

Working Plan 2023

  • Release of a new example showing how to import in Geant4 simulations IAEA Phase Space Files (1,2)[*]
  • Further developments of in-silico experimental microdosimetry in the Radioprotection example (1,2)
  • Improve MicroElec example to show the use of novel electron low energy cross sections for solid state materials beyond silicon (1,2)
  • Implementation of pre-clinical, mice PET images to evaluate a dose distribution for new drugs (1,2)
  • Upgrade of the medical_linac example (1,2)
  • Design of realistic phantoms of C. elegans in the stim_pixe_tomography advanced example (1,2)
  • Add a new geometry reproducing some dosimeters used in FLASH radiotherapy in the eFLASH_radiotherapy example (1,2)
  • Add new detectors, SiC and TEPC microdosimeters, in the exp_microdosimetry example (1,2)
  • Improve the Hadrontherapy example in the simulation of proton, carbon ion and helium ion beam irradiation for the calculation of track- and dose- averaged LET(1,2)
  • Maintenance of the webpage (1,2)
  • Maintenance and code review (e.g. implementation of the extended examples coding guidelines and migration to C++17) in selected examples (1,2)

Note:

  • [*] Optional, and subject to the availability of manpower
  • 1: aimed to be done in first semester
  • 2: aimed to be done in second semester

Previous working plans