Welcome to EPOC++’s documentation!

• Ubuntu walkthrough
  • Obtaining the code from Git
  • Building the code
  • Running the code
  • Reading the output
• Installation
  • Building for C++
  • Building for Python
  • Building Python for Developers
  • VisIt support
• Input deck
  • Maths parser
  • Control block
  • Boundaries block
  • Species block
  • Laser block
  • Fields block
  • Output block
  • Constant block
• Physics package interface
  • Physics package overview
  • Physics package features
  • Physics package manager class
  • Physics package class
  • Physics table class
  • Particle variable class
  • Sampling methods
  • Event trigger probability
  • Optical depth method
  • Physically increased rates
  • Weighted collisional processes
  • Cumulative density functions
  • Adding a new physics package
  • Test processes
  • Example 1: Basic sampling
  • Example 1.0
  • Example 1.1
  • Example 1.2
  • 1D density plotter
  • Example 2: Secondary particles
  • Example 2.0
  • Example 2.1
  • Example 2.2
  • Example 2.3
  • Example 2.4
  • Example 3: Field background
  • Example 3.0
  • Example 3.1
  • Phase space plotter
  • Current density plotter
  • Example 4: Particle background
  • Example 4.0
  • Example 4.1
  • Example 4.2
  • Example 4.3
  • Example 5: Collisions
  • Example 5.0
  • Bremsstrahlung
  • Cross sections
  • Photon sampling
  • Plasma-screening
  • Angular distribution
  • Positron bremsstrahlung
  • Example: Basic
  • Example: Plasma-screening
  • Example: Angular distribution
  • Example: Positron bremsstrahlung
  • Python energy spectrum plotter
  • Python angular distribution plotter
  • Bethe-Heitler e-e+
  • Cross sections
  • Pair particle energies
  • Angular distribution
  • Example: Bethe-Heitler
  • Bethe-Heitler muon pair production
  • Cross sections
  • Pair particle energies
  • Angular distribution
  • Example: Muon pair production
  • Nuclear trident
  • Cross sections
  • Pair particle energies
  • Angular distribution
  • Example: Nuclear trident
  • Field ionisation
  • Multiphoton ionisation
  • Tunnelling ionisation
  • Barrier-suppression ionisation (classical)
  • Classical ionisation (strong-field)
  • Combined ionisation rate
  • Field energy loss
  • Ionisation kinematics
  • Example: Multiphoton
  • Example: Tunnelling
  • Example: Barrier-suppression
  • Example: Classical model
  • Collisional ionisation
  • Ionisation tables
  • Cross sections
  • MBELL method
  • RBEB method
  • Ejected electron energies
  • Incident electron recoil
  • Example: Collisional ionisation
  • Number density evolution
  • Recombination
  • Dielectronic recombination
  • Radiative recombination
  • Three-body recombination
  • Ion-rest-frame transformations
  • Example: Dielectronic and radiative recombination
  • Example: Three-body recombination
  • Unfinished work
  • Packages
  • Multiple triggers per timestep
  • Master blocks
  • Output/restart
  • Python interface
  • Tidy up tables
• C++ API
  • Simulation
  • Fields
  • Species
  • Array3d
  • StaticArray1d
  • StaticArray2d
• Python API
  • Simulation
  • Species

Indices and tables

• Index