- Compact style
- Indico style
- Indico style - inline minutes
- Indico style - numbered
- Indico style - numbered + minutes
- Indico Weeks View
The collaboration meeting is limited to Geant4 Collaborators and invitees. Registration is required for attendance.
Collaboration meeting web page with registration form is here.
Update on recent developments of kernel modules
For presenting and discussion results of EM physcs validation
Presentation of new extended examples
Discussion: Status of Work Plan 2017 Items
Updates on development and validation for all Geant4 hadronic physics models. In this first part, we will start from the highest energy models (string models) and then go down in energy, with the intranuclear cascade models, then precompound/de-excitation models, radioactive decay, particleHP, etc. The models that will not be covered in this part, will be covered in the second one.
Google Doc for taking notes and comments: https://docs.google.com/document/d/1KQmVJxBymfngCZxz5WuGkYLsaRoxbTeyOSvQBL7bIyo/edit?usp=sharing
Updates on development and validation for all Geant4 hadronic physics models. In this second part, we will continue with the models that have not been covered in the first session, i.e. lower-energy models.
This session is dedicated to the low-energy hadronic physics, with particular emphasis to nuclear, medical and space physics applications.
This would be a working session with the idea of actually producing documentation on the physics lists from both a beginners and advanced user perspective.
Presentation of updates about new aspects of parallelisation and vectorisation.
Discussion of potential common aspects between 'production' Geant4 and development projects.
Point(s) for discussion - expected components that could benefit most; infrastructure required; how to explore
This session is dedicated to technical aspects related to hadronic physics, as well as any remaining topics that need to be covered or further discussed.
In radiotherapy, biasing of bremsstrahlung photons can lead to large speed-up. But electrons sometimes hit the patient, with large weights compared to the photon ones. A geometrical biasing may alleviate the effect, but this could not be done so far.
The implementation of interaction forcing for reverse gamma will be discussed as well as other ideas.
Parallel 1A-6B