cburn_inward

This test suite example checks the inward propagation of a carbon burning front in a 7.5 Msun model.

Physical checks

This test case tracks the mass co-orindate when carbon ignites, the density at that point, and the C/O core mass at that instance.

This mass should be about half the C/O core mass (0.5 \({\rm M}_\odot\)). If its not then the initial model needs updating. If the mass is smaller, then either decrease the initial mass of the star or decrease overshoot during core helium burning. If the ignition mass is higher then increase the initial mass or increase overshoot during core helium burning.

The ignition density should be about \(\log(\rho/\rm g\,cm^{-3})\) ~ 6.2 (Farmer et al (2015)). If its signficantly different (0.1 dex) then we have a microphysics problem (or more likely an issue tracking the flame location).

The C/O core mass should be between 1.0 and 1.4 \({\rm M}_\odot\), if different then tune the initial mass/overshot, otherwise we may not get a carbon flame.

Inlists

This test case has two parts. Click to see a larger view of a plot.

  • Part 1 (inlist_initial) creates a 7.5 Msun, Z=0.02 metallicity, pre-main sequence model and evolves it to core helium depletion (mass fraction helium < 1e-5.)
  • Part 2 (cburn_inward) continues the evoluton where an off-center carbon burning front ignites, develops a convective region behind the burning front, and propagates towards the center through oxygen-neon-magnesium rich material.
../_images/grid_000170.svg ../_images/kipp_000170.svg

pgstar commands used for the plots above:

&pgstar

  file_white_on_black_flag = .true. ! white_on_black flags -- true means white foreground color on black background
  file_device = 'png'            ! png
  file_extension = 'png'

  !file_device = 'vcps'          ! postscript
  !file_extension = 'ps'

   pgstar_interval = 1

     Grid2_win_flag = .true.
        Grid2_win_width = 15
        Grid2_win_aspect_ratio = 0.5 ! aspect_ratio = height/width

        Grid2_num_cols = 7 ! divide plotting region into this many equal width cols
        Grid2_num_rows = 8 ! divide plotting region into this many equal height rows
        Grid2_num_plots = 6 ! <= 10

        Grid2_plot_pad_right(5) = 0.00 ! fraction of full window width for padding on right
        Grid2_plot_colspan(5) = 3 ! plot spans this number of columns
        Grid2_plot_colspan(4) = 5 ! plot spans this number of columns

        Grid2_plot_name(6) = 'Profile_Panels1'
        Grid2_plot_row(6) = 1 ! number from 1 at top
        Grid2_plot_rowspan(6) = 8 ! plot spans this number of rows
        Grid2_plot_col(6) =  6 ! number from 1 at left
        Grid2_plot_colspan(6) = 2 ! plot spans this number of columns
        Grid2_plot_pad_left(6) = 0.06 ! fraction of full window width for padding on left
        Grid2_plot_pad_right(6) = 0.03 ! fraction of full window width for padding on right
        Grid2_plot_pad_top(6) = 0.0 ! fraction of full window height for padding at top
        Grid2_plot_pad_bot(6) = 0.0 ! fraction of full window height for padding at bottom
        Grid2_txt_scale_factor(6) = 0.65 ! multiply txt_scale for subplot by this

        TRho_logRho_dlogRho_min = 0.01
        TRho_logT_dlogT_min = 0.02
        HR_dlogT_min = 0.02
        HR_dlogL_min = 0.01

        Text_Summary1_name(2,1) = 'star_age'

 ! file output
        Grid2_file_flag = .true.
        Grid2_file_dir = 'png'
        Grid2_file_prefix = 'grid_'
        Grid2_file_interval = 10 ! 1 ! output when mod(model_number,Grid2_file_interval)==0
        Grid2_file_width = -1 ! negative means use same value as for window
        Grid2_file_aspect_ratio = -1 ! negative means use same value as for window


     show_TRho_Profile_eos_regions = .false.
     TRho_Profile_xmin = -5.1
     TRho_Profile_xmax = 10.2
     TRho_Profile_ymin = 5.1
     TRho_Profile_ymax = 10.2

        Text_Summary1_name(1,3) = 'log_cntr_Rho'
        Text_Summary1_name(2,3) = 'log_cntr_T'
        Text_Summary1_name(3,3) = 'max_T'
        Text_Summary1_name(8,1) = 'species'

     Abundance_win_flag = .false.
     Abundance_win_width = 6
     Abundance_win_aspect_ratio = 1 ! aspect_ratio = height/width

     Abundance_xaxis_name = 'mass'
     Abundance_xaxis_reversed = .false.
     Abundance_xmin = 0 ! only used if /= -101d0

     Abundance_line_txt_scale_factor = 1.1 ! relative to other text
     Abundance_legend_txt_scale_factor = 1.1 ! relative to other text
     Abundance_legend_max_cnt = 0
     Abundance_log_mass_frac_min = -3 ! only used if < 0

 ! file output
     Abundance_file_flag = .false.
     Abundance_file_dir = 'png'
     Abundance_file_prefix = 'abund_'
     Abundance_file_interval = 5 ! output when mod(model_number,Abundance_file_interval)==0
     Abundance_file_width = -1 ! (inches) negative means use same value as for window
     Abundance_file_aspect_ratio = -1 ! negative means use same value as for window


     Profile_Panels1_win_width = 6
     Profile_Panels1_win_aspect_ratio = 1 ! aspect_ratio = height/width

     Profile_Panels1_title = 'Profile Panels'
     Profile_Panels1_num_panels = 3

     Profile_Panels1_yaxis_name(1) = 'logT'
     Profile_Panels1_other_yaxis_name(1) = 'entropy'
        Profile_Panels1_other_ymin(1) = 0 ! only used if /= -101d0
        Profile_Panels1_other_ymax(1) = -101d0 ! only used if /= -101d0
        Profile_Panels1_other_ymargin(1) = 1

     Profile_Panels1_yaxis_name(2) = 'logRho'
     Profile_Panels1_other_yaxis_name(2) = 'logR_cm'
        Profile_Panels1_other_ymin(2) = -101d0 ! only used if /= -101d0
        Profile_Panels1_other_ymax(2) = -101d0 ! only used if /= -101d0
        Profile_Panels1_other_ymargin(2) = 0

     Profile_Panels1_yaxis_name(3) = 'log_abs_eps_nuc'
        Profile_Panels1_ymin(3) = 5 ! only used if /= -101d0
        !Profile_Panels1_ymax(3) = 0.51 ! only used if /= -101d0
        !Profile_Panels1_ymargin(3) = 0.1
     Profile_Panels1_other_yaxis_name(3) = 'log_D_mix'
        Profile_Panels1_other_ymin(3) = 5 ! only used if /= -101d0
        !Profile_Panels1_other_ymax(3) = 300d0 ! only used if /= -101d0
        !Profile_Panels1_other_ymargin(3) = 10


     Profile_Panels1_xaxis_name = 'mass'
     Profile_Panels1_xaxis_reversed = .false.
     Profile_Panels1_xmin = 0.0 ! only used if /= -101d0

     Profile_Panels1_xmargin = 0d0

     Profile_Panels1_xmax = 0.5 ! -101d0 ! only used if /= -101d0
     Abundance_xmax = 0.5 ! -101 ! only used if /= -101d0

       kipp_win_flag = .true.
       kipp_win_width = 12
       kipp_mass_max = 1.3
       kipp_file_flag = .true.
       Kipp_file_flag = .true.
       Kipp_file_dir = 'png'
       Kipp_file_prefix = 'kipp_'
       Kipp_file_interval = 10 ! 1 ! output when mod(model_number,Kipp_file_interval)==0
       Kipp_file_width = -1 ! negative means use same value as for window
       Kipp_file_aspect_ratio = -1 ! negative means use same value as for window

/ ! end of pgstar namelist

Last-Updated: 01Jun2021 (MESA 5a0c270) by fxt