Workspace Format ID = 3 [Header Data]: Format ID = 1 PrismSPECT Version_3.1.0 [End Header Data] [Material Elements Parameters]: Format ID = 5 # Default ATBASE directory = ATBASE_5.0 Default PROPACEOS directory = # Number of Atomic Elements = 2 # Parameters for Atomic Element = Hydrogen # Atomic number = 1 Isotope index = -1 Atomic weight = 1.00797 Number fraction = 0.999 Element Symbol = H ATM specifier ID = 1 Default atomic model ID = 1 ATM filepath = C:/files/astro_projects/prism_test/H_v5.atm Tabular opacity filepath = # # Parameters for Atomic Element = Nitrogen # Atomic number = 7 Isotope index = -1 Atomic weight = 14.0067 Number fraction = 0.001 Element Symbol = N ATM specifier ID = 1 Default atomic model ID = 1 ATM filepath = C:/files/astro_projects/prism_test/N_v5.atm Tabular opacity filepath = # # [End Material Elements Parameters] [Simulation Type Parameters]: Format ID = 1 # Simulation class ID = 1 Geometry model ID = 0 Elec distrib specification ID = 0 Density specification ID = 0 Size specification ID = 0 Ext rad src model ID = 1 Ext rad src sides ID = 0 # [End Simulation Type Parameters] [Steady-State Plasma Parameters]: Format ID = 2 # Indep. var. #1 name = None Indep. var. #2 name = None Indep. var. #1 ID = 0 Indep. var. #2 ID = 0 Element being varied = Plasma temperature = 30 Plasma temperature units ID = 0 Plasma density = 1e+015 Plasma density units ID = 0 Plasma size = 0.001 Plasma size units ID = 0 Rad drive temperature = 1 Rad drive temp units ID = 0 Rad spectral temperature = 1 Rad spectral temp units ID = 0 Use size-density model = 0 Size-density model ID = 1 Hot electron fraction = 0 Hot electron temperature = 1000 Hot electron temp units ID = 0 Limit range elec distrib = 0 Min hot elec distrib range = 0.0001 Max hot elec distrib range = 500000 Hot elec distrib expression = [table format=1]: Steady-State Plasma Temperatures Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Plasma Density Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Plasma Size Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Element Number Fraction Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Radiation Drive Temperature Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Radiation Spectral Temperature Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Hot Electron Fraction Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Hot Electron Temperature Grid: # table rows = 0 # table cols = 0 # [End Steady-State Plasma Parameters] [Time-Dependent Plasma Parameters]: Format ID = 2 # Plasma temperature = 10 Plasma temperature units ID = 0 Plasma density = -1 Plasma density units ID = 0 Plasma size = 0.001 Plasma size units ID = 0 Rad drive temperature = 1 Rad drive temp units ID = 0 Rad spectral temperature = 1 Rad spectral temp units ID = 0 Use plasma temp table = 0 Use plasma density table = 0 Use plasma size table = 0 Use rad drive temp table = 0 Use rad spectral temp table = 0 Use size-density model = 0 Size-density model ID = 1 Init populs model ID = 1 Init populs temperature = 0.025 Hot electron fraction = 0 Hot electron temperature = 1000 Hot electron temp units ID = 0 Use hot elec fraction table = 0 Use hot electron temp table = 0 Limit range elec distrib = 0 Min hot elec distrib range = 0.0001 Max hot elec distrib range = 500000 Hot elec distrib expression = [table format=1]: Simulation Time Grid: # table rows = 1 # table cols = 1 Simulation Times: 0.00000e+000 [table format=1]: Time-Dependent Plasma Temperatures Grid: # table rows = 0 # table cols = 0 [table format=1]: Time-Dependent Plasma Density Grid: # table rows = 0 # table cols = 0 [table format=1]: Time-Dependent Plasma Size Grid: # table rows = 0 # table cols = 0 [table format=1]: Time-Dependent Radiation Drive Temperature Grid: # table rows = 0 # table cols = 0 [table format=1]: Time-Dependent Radiation Spectral Temperature Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Hot Electron Fraction Grid: # table rows = 0 # table cols = 0 [table format=1]: Steady-State Hot Electron Temperature Grid: # table rows = 0 # table cols = 0 # [End Time-Dependent Plasma Parameters] [Atomic Processes Parameters]: Format ID = 4 # Population model ID = 1 Coll Exc/Deexc mult. = 1.00000e+000 Coll Iz/Rec mult. = 1.00000e+000 Photo Exc/Stim emis mult. = 1.00000e+000 Photo Iz/Stim rec mult. = 1.00000e+000 Spontaneous emis mult. = 1.00000e+000 Radiative rec mult. = 1.00000e+000 Autoiz/Diel rec mult. = 1.00000e+000 Min. Osc. Strength for grid = 1.00000e-010 Num pts in continuum = 200 Num pts per BB transition = 15 Doubly excited trans. = 0 # [End Atomic Processes Parameters] [Spectral Parameters]: Format ID = 2 # Min photon energy = 1.00000e+001 Max photon energy = 1.00000e+002 Num continuum pts = 200 Min oscillator strength = 1.00000e-006 Num pts per line transition = 9 Backlighter model ID = 0 Backlighter temperature = 1.00000e+003 # [End Spectral Parameters] [Output Control Parameters]: Format ID = 2 # Write pops/spectra to files = 1 Number of opacity components = 3 # Component type = 4 Atomic number = 7 Selection type = 0 Lower ion stage = 0 Upper ion stage = 0 # Component type = 5 Atomic number = 1 Selection type = 0 Lower ion stage = 0 Upper ion stage = 0 # Component type = 5 Atomic number = 7 Selection type = 0 Lower ion stage = 0 Upper ion stage = 0 # [End Output Control Parameters] [Dialog Settings Parameters]: Format ID = 1 # [End Dialog Settings Parameters] [Line Intensity Parameters]: Format ID = 2 # Plot quantity type = 0 Number of Line Bands = 0 Number of Line Bands = 0 Number of Line Bands = 0 Number of Line Ratios = 0 Number of Line Ratios = 0 Number of Line Ratios = 0 # [End Line Intensity Parameters] [End of Workspace File]