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