Paper reference: Fichtner et al., 2024

WARNING: The flow values are cumulative, however starting from 0 again in every new simulation (every simulations has its own data file), so for all SN and the "binary_lifetime_secondary" simulation the final value of the cumulative flow of the previous simulation needs to be added to get total flow values. See the "Description of fields in the files" section below for further information. 
WARNING: Similarly, the time starts in all SN simulations (however not in "binary_lifetime_secondary") from 0 again in every new simulation, so to get the total time since the birth of the stellar model the final time of the previous simulation needs to be added to the time of the SN simulation.
Note: decreasing and negative flows are caused by inflows

The tar files are gzip compressed. After extraction, they contain multiple folders. The file "Data_single.tar.gz" contains the folders "Single_lifetime" and "Single_SN". The file "Data_binary.tar.gz" contains the folders "Binary_lifetime_both", "Binary_lifetime_secondary", "Binary_SN_secondary" and "Binary_SN_secondary_longer". Each folder contains a file with the cumulative flows of each simulation. Which model was simulated can be seen in the file name and the header of the file.

The header contains the following information, separated with a comma (file names follow the same naming conventions):
absolute metallicity (example: z0.004: Z = 0.004)
rotation velocity in km/s (example: r000: v_ini = 0 km/s)
log10(M/Msun)  (example: M1.000: M = 10 Msun)
ambient density in cm^-3 (example: d0100: n = 100 cm^-3)
sphere radius in pc (example: s05: r_s = 5 pc)
indicating if it is a single or binary model, possible options: 'single' and 'binary'
indicating phase of the run: possible options:
	lifetime: single model during the stellar lifetime
	SN: single model during the SN run
	lifetime_both: binary model during the lifetime of the primary and secondary
	lifetime_secondary: binary model during the lifetime of only the secondary, partially with primary SN
	SN_secondary: binary model during the secondary SN run
	SN_primary_longer: binary model that is run longer after the death of the secondary (to ensure that all SN are run for at least 5 Myr)

Description of fields in the files:
In the file "Data_single.tar.gz":
folder "Single_lifetime":
fields:
Time_Myr: time since start of the lifetime simulation, in Myr
Mass_c_Msun: cumulative mass flow through the given sphere radius since start of the lifetime simulation, in Msun
Mass_metal_c_Msun: cumulative metal mass flow through the given sphere radius since start of the lifetime simulation, in Msun
Energy_ki_c_erg: cumulative kinetic energy flow through the given sphere radius since start of the lifetime simulation, in erg
Energy_th_c_erg: cumulative thermal energy flow through the given sphere radius since start of the lifetime simulation, in erg
Notes:
output times are mostly regular spaced
the simulation is run until the end of the stellar lifetime


folder "Single_SN":
fields:
Time_Myr: time since start of the SN simulation, in Myr
Mass_c_Msun: cumulative mass flow through the given sphere radius since start of the SN simulation, in Msun
Mass_metal_c_Msun: cumulative metal mass flow through the given sphere radius since start of the SN simulation, in Msun
Energy_ki_c_erg: cumulative kinetic energy flow through the given sphere radius since start of the SN simulation, in erg
Energy_th_c_erg: cumulative thermal energy flow through the given sphere radius since start of the SN simulation, in erg
Notes:
to get total values the time and final flow values of the end of the lifetime simulation need to be added
output times are initially more frequent
the simulation is run for 5 Myr or longer


In the file "Data_binary_tar.gz":
folder "Binary_lifetime_both":
fields:
Time_Myr: time since start of the lifetime_both simulation, in Myr
Mass_c_Msun: cumulative mass flow through the given sphere radius since start of the lifetime_both simulation, in Msun
Mass_metal_c_Msun: cumulative metal mass flow through the given sphere radius since start of the lifetime_both simulation, in Msun
Energy_ki_c_erg: cumulative kinetic energy flow through the given sphere radius since start of the lifetime_both simulation, in erg
Energy_th_c_erg: cumulative thermal energy flow through the given sphere radius since start of the lifetime_both simulation, in erg
Notes:
output times are mostly regular spaced
the simulations are run until the end of the primary lifetime


folder "Binary_lifetime_secondary":
fields:
Time_Myr: time since start of the lifetime_both simulation, in Myr (WARNING)
Mass_c_Msun: cumulative mass flow through the given sphere radius since start of the lifetime_secondary simulation, in Msun
Mass_metal_c_Msun: cumulative metal mass flow through the given sphere radius since start of the lifetime_secondary simulation, in Msun
Energy_ki_c_erg: cumulative kinetic energy flow through the given sphere radius since start of the lifetime_secondary simulation, in erg
Energy_th_c_erg: cumulative thermal energy flow through the given sphere radius since start of the lifetime_secondary simulation, in erg
Notes:
to get total values the final flow values of the end of the lifetime_both simulation needs to be added
output times are initially more frequent (for the simulations with primary SN) and later mostly regular spaced
the simulations are run until the end of the secondary lifetime
some simulations contain a primary SN


folder "Binary_SN_secondary":
fields:
Time_Myr: time since start of the SN_secondary simulation, in Myr
Mass_c_Msun: cumulative mass flow through the given sphere radius since start of the SN_secondary simulation, in Msun
Mass_metal_c_Msun: cumulative metal mass flow through the given sphere radius since start of the SN_secondary simulation, in Msun
Energy_ki_c_erg: cumulative kinetic energy flow through the given sphere radius since start of the SN_secondary simulation, in erg
Energy_th_c_erg: cumulative thermal energy flow through the given sphere radius since start of the SN_secondary simulation, in erg
Notes:
to get total values the time and final flow values of the end of the SN_secondary simulation need to be added
output times are initially more frequent
the simulations are run for 5 Myr or longer


folder "Binary_SN_primary_longer":
fields:
Time_Myr: time since start of the SN_primary_longer simulation, in Myr
Mass_c_Msun: cumulative mass flow through the given sphere radius since start of the SN_primary_longer simulation, in Msun
Mass_metal_c_Msun: cumulative metal mass flow through the given sphere radius since start of the SN_primary_longer simulation, in Msun
Energy_ki_c_erg: cumulative kinetic energy flow through the given sphere radius since start of the SN_primary_longer simulation, in erg
Energy_th_c_erg: cumulative thermal energy flow through the given sphere radius since start of the SN_primary_longer simulation, in erg
Notes:
to get total values the time and final flow values of the end of the SN_secondary simulation need to be added
the simulations are run until 5 Myr since the start of the SN_secondary simulation is reached