MetaData:
  run_name: RT_collision-1D

# Define the system of units to use internally. 
InternalUnitSystem:
  UnitMass_in_cgs:     1.
  UnitLength_in_cgs:   1.
  UnitVelocity_in_cgs: 1.
  UnitCurrent_in_cgs:  1.
  UnitTemp_in_cgs:     1.

# Parameters governing the time integration
TimeIntegration:
  max_nr_rt_subcycles: 1
  time_begin: 0.    # The starting time of the simulation (in internal units).
  time_end:   4.e-1  # The end time of the simulation (in internal units).
  dt_min:     1.e-8 # The minimal time-step size of the simulation (in internal units).
  dt_max:     1.e-02  # The maximal time-step size of the simulation (in internal units).

# Parameters governing the snapshots
Snapshots:
  basename:            output # Common part of the name of output files
  time_first:          0.    # Time of the first output (in internal units)
  delta_time:          2.e-2

# Parameters governing the conserved quantities statistics
Statistics:
  time_first:          0.
  delta_time:          4.e-2 # Time between statistics output

# Parameters for the hydrodynamics scheme
SPH:
  resolution_eta:        1.2348   # Target smoothing length in units of the mean inter-particle separation (1.2348 == 48Ngbs with the cubic spline kernel).
  CFL_condition:         0.6      # Courant-Friedrich-Levy condition for time integration.
  minimal_temperature:   10.      # Kelvin

# Parameters related to the initial conditions
InitialConditions:
  file_name:  ./collision_1D.hdf5  # The file to read
  periodic:   1                     # periodic ICs

Restarts:
  delta_hours:        72        # (Optional) decimal hours between dumps of restart files.

GEARRT:
  f_reduce_c: 1.                  # reduce the speed of light for the RT solver by multiplying c with this factor
  f_limit_cooling_time: 0.0       # (Optional) multiply the cooling time by this factor when estimating maximal next time step. Set to 0.0 to turn computation of cooling time off.
  CFL_condition: 0.8              # CFL condition for RT, independent of hydro
  photon_groups_Hz: [0., 1., 2.]  # Lower photon frequency group bin edges in Hz. Needs to have exactly N elements, where N is the configured number of bins --with-RT=GEAR_N
  stellar_luminosity_model: const                # Which model to use to determine the stellar luminosities.
  const_stellar_luminosities_LSol: [0., 0., 0.]  # (Conditional) constant star luminosities for each photon frequency group to use if stellar_luminosity_model:const is set, in units of Solar Luminosity.
  hydrogen_mass_fraction:  0.76                  # total hydrogen (H + H+) mass fraction in the metal-free portion of the gas
  stellar_spectrum_type: 0                       # Which radiation spectrum to use. 0: constant from 0 until some max frequency set by stellar_spectrum_const_max_frequency_Hz. 1: blackbody spectrum.
  stellar_spectrum_const_max_frequency_Hz: 1.e17 # (Conditional) if stellar_spectrum_type=0, use this maximal frequency for the constant spectrum. 
  skip_thermochemistry: 1                        # ignore thermochemistry.
  set_initial_ionization_mass_fractions: 1       # (Optional) manually overwrite initial mass fraction of each species (using the values you set below)
  mass_fraction_HI: 0.76                         # (Conditional) If overwrite_initial_ionization_fractions=1, needed to set initial HI mass fractions to this value
  mass_fraction_HII: 0.                          # (Conditional) If overwrite_initial_ionization_fractions=1, needed to set initial HII mass fractions to this value
  mass_fraction_HeI: 0.24                        # (Conditional) If overwrite_initial_ionization_fractions=1, needed to set initial HeI mass fractions to this value
  mass_fraction_HeII: 0.                         # (Conditional) If overwrite_initial_ionization_fractions=1, needed to set initial HeII mass fractions to this value
  mass_fraction_HeIII: 0.                        # (Conditional) If overwrite_initial_ionization_fractions=1, needed to set initial HeIII mass fractions to this value