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Physics Reference Manual
11.3 (doc Rev9.1)
Contents
General Information
Decay
Electromagnetic Interactions
Electromagnetic Physics in
Geant4
Gamma incident
Introduction to Gamma Processes
Elastic Scattering
PhotoElectric Effect
Compton scattering
Gamma Conversion into e
+
e
-
Pair
Livermore Triple Gamma Conversion
Gamma Conversion into Lepton Pair
X-ray reflection
Energy Loss of Charged Particles
Elastic scattering
Atomic Relaxation
Electron and Positron Incident
Muon incident
Charged Hadron Incident
Polarized Electron/Positron/Gamma Incident
X-Ray production
Optical Photons
Geant4
-DNA
Microelectronics
Shower Parameterizations
Hadronic Physics in
Geant4
Gamma- and Lepto-Nuclear Interactions
Neutrino Interactions
Solid State Physics
Physics Reference Manual
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Electromagnetic Interactions
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Gamma incident
Gamma incident
Contents:
Introduction to Gamma Processes
General Interfaces
Elastic Scattering
Penelope Model
Livermore Model
JAEA Elastic Scattering Model
PhotoElectric Effect
Cross Section
Final State
Relaxation
Penelope Model
Livermore Model
Compton scattering
Cross Section
Sampling the Final State
Atomic shell effects
Penelope Model
Livermore Model
Monash University Low Energy Model
Gamma Conversion into e
+
e
-
Pair
Cross Section
Final State
Ultra-Relativistic Model
Five-dimensional (5D) Bethe-Heitler gamma Conversion to e
+
e
-
Penelope Model
Livermore Model
Livermore Triple Gamma Conversion
Method
Azimuthal Distribution for Electron Recoil
Monte Carlo Simulation of the Asymptotic Expression
Algorithm for Non Polarized Radiation
Algorithm for Polarized Radiation
Sampling of Energy
Gamma Conversion into Lepton Pair
Cross Section and Energy Sharing
Parameterization of the Total Cross Section
Multi-differential Cross Section and Angular Variables
Procedure for the Generation of
\(\mu ^+\mu ^-\)
Pairs
Five-dimensional (5D) Bethe-Heitler gamma Conversion to
\(\mu ^+\mu ^-\)
X-ray reflection
Activation
Reflectivity model
Surface roughness model