Covers the Geant4 website, user guides, basic, extended and advanced examples, and where to get help.
Geant4 physics lists: what they are and how to use them.
Hands-on instruction
How materials are defined and how they can be used in an application.
Provides an overview of Geant4 physics, a discussion of physics processes and a description of secondary particle production thresholds.
Covers particle decays, optical photon interactions and solid state processes.
An overview of Geant4 electromagnetic physics, with discussions of multiple scattering, energy fluctuations and atomic de-excitation.
Low energy electromagnetic physics processes and models in Geant4 and how to use them.
A detailed discussion of how ionization, bremsstrahlung, multiple scattering and transportation compete to limit step size and choose an interaction.
An overview of Geant4 hadronic physics and discussions of precompound and intranuclear cascade models.
A discussion of hadron elastic models, low energy neutrons, ion-ion models, capture, stopping and fission.
A discussion of QCD string models, gamma- and lepto-nuclear models and radioactive decay.
A discussion of specific biasing options, including reverse Monte Carlo, and the general Geant4 biasing framework.
Tips on choosing a physics list and validating it.
Tips on upgrading to the latest Geant4 version and where to get help.