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Commit c686663f authored by Folkert Nobels's avatar Folkert Nobels Committed by Matthieu Schaller
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EAGLE SF: Name change of parameters

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doc/RTD/source/SubgridModels/EAGLE/index.rst
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...@@ -508,10 +508,10 @@ For a normal EAGLE run, that section of the parameter file reads: ...@@ -508,10 +508,10 @@ For a normal EAGLE run, that section of the parameter file reads:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # (Optional) Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # (Optional) Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
KS_max_density_threshold_H_p_cm3: 1e5 # (Optional) Hydrogen number density above which a particle gets automatically turned into a star in Hydrogen atoms per cm^3. KS_max_density_threshold_H_p_cm3: 1e5 # (Optional) Hydrogen number density above which a particle gets automatically turned into a star in Hydrogen atoms per cm^3.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
......
examples/EAGLE_ICs/EAGLE_12/eagle_12.yml
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...@@ -105,10 +105,10 @@ EAGLEStarFormation: ...@@ -105,10 +105,10 @@ EAGLEStarFormation:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/EAGLE_ICs/EAGLE_25/eagle_25.yml
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...@@ -106,10 +106,10 @@ EAGLEStarFormation: ...@@ -106,10 +106,10 @@ EAGLEStarFormation:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/EAGLE_ICs/EAGLE_50/eagle_50.yml
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...@@ -106,10 +106,10 @@ EAGLEStarFormation: ...@@ -106,10 +106,10 @@ EAGLEStarFormation:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
...@@ -171,4 +171,4 @@ EAGLEAGN: ...@@ -171,4 +171,4 @@ EAGLEAGN:
AGN_delta_T_K: 3.16228e8 # Change in temperature to apply to the gas particle in an AGN feedback event in Kelvin. AGN_delta_T_K: 3.16228e8 # Change in temperature to apply to the gas particle in an AGN feedback event in Kelvin.
AGN_num_ngb_to_heat: 1. # Target number of gas neighbours to heat in an AGN feedback event. AGN_num_ngb_to_heat: 1. # Target number of gas neighbours to heat in an AGN feedback event.
\ No newline at end of file
examples/EAGLE_low_z/EAGLE_12/eagle_12.yml
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...@@ -94,10 +94,10 @@ EAGLEStarFormation: ...@@ -94,10 +94,10 @@ EAGLEStarFormation:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/EAGLE_low_z/EAGLE_25/eagle_25.yml
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...@@ -101,10 +101,10 @@ EAGLEStarFormation: ...@@ -101,10 +101,10 @@ EAGLEStarFormation:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/EAGLE_low_z/EAGLE_50/eagle_50.yml
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...@@ -96,10 +96,10 @@ EAGLEStarFormation: ...@@ -96,10 +96,10 @@ EAGLEStarFormation:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/EAGLE_low_z/EAGLE_6/eagle_6.yml
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...@@ -105,10 +105,10 @@ EAGLEStarFormation: ...@@ -105,10 +105,10 @@ EAGLEStarFormation:
EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas. EOS_gamma_effective: 1.3333333 # Slope the of the polytropic EOS assumed for the star-forming gas.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/IsolatedGalaxy/IsolatedGalaxy_feedback/isolated_galaxy.yml
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...@@ -88,10 +88,10 @@ EAGLEStarFormation: ...@@ -88,10 +88,10 @@ EAGLEStarFormation:
gas_fraction: 0.3 # The gas fraction used internally by the model. gas_fraction: 0.3 # The gas fraction used internally by the model.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/IsolatedGalaxy/IsolatedGalaxy_starformation/isolated_galaxy.yml
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...@@ -89,10 +89,10 @@ EAGLEStarFormation: ...@@ -89,10 +89,10 @@ EAGLEStarFormation:
gas_fraction: 0.3 # The gas fraction used internally by the model. gas_fraction: 0.3 # The gas fraction used internally by the model.
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars. EOS_temperature_margin_dex: 0.5 # Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars.
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
examples/parameter_example.yml
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...@@ -344,11 +344,11 @@ EAGLEStarFormation: ...@@ -344,11 +344,11 @@ EAGLEStarFormation:
gas_fraction: 0.25 # (Optional) The gas fraction used internally by the model (Defaults to 1). gas_fraction: 0.25 # (Optional) The gas fraction used internally by the model (Defaults to 1).
KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr. KS_normalisation: 1.515e-4 # The normalization of the Kennicutt-Schmidt law in Msun / kpc^2 / yr.
KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law. KS_exponent: 1.4 # The exponent of the Kennicutt-Schmidt law.
KS_min_over_density: 57.7 # The over-density above which star-formation is allowed. min_over_density: 57.7 # The over-density above which star-formation is allowed.
KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3. KS_high_density_threshold_H_p_cm3: 1e3 # Hydrogen number density above which the Kennicut-Schmidt law changes slope in Hydrogen atoms per cm^3.
KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold. KS_high_density_exponent: 2.0 # Slope of the Kennicut-Schmidt law above the high-density threshold.
KS_max_density_threshold_H_p_cm3: 1e5 # (Optional) Density above which a gas particle gets automatically turned into a star in Hydrogen atoms per cm^3 (Defaults to FLT_MAX). KS_max_density_threshold_H_p_cm3: 1e5 # (Optional) Density above which a gas particle gets automatically turned into a star in Hydrogen atoms per cm^3 (Defaults to FLT_MAX).
KS_temperature_margin_dex: 0.5 # (Optional) Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars (Defaults to FLT_MAX). EOS_temperature_margin_dex: 0.5 # (Optional) Logarithm base 10 of the maximal temperature difference above the EOS allowed to form stars (Defaults to FLT_MAX).
threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3. threshold_norm_H_p_cm3: 0.1 # Normalisation of the metal-dependant density threshold for star formation in Hydrogen atoms per cm^3.
threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation. threshold_Z0: 0.002 # Reference metallicity (metal mass fraction) for the metal-dependant threshold for star formation.
threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold threshold_slope: -0.64 # Slope of the metal-dependant star formation threshold
......
src/star_formation/EAGLE/star_formation.h
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...@@ -485,7 +485,7 @@ INLINE static void starformation_init_backend( ...@@ -485,7 +485,7 @@ INLINE static void starformation_init_backend(
/* Read the critical density contrast from the parameter file*/ /* Read the critical density contrast from the parameter file*/
starform->min_over_den = parser_get_param_double( starform->min_over_den = parser_get_param_double(
parameter_file, "EAGLEStarFormation:KS_min_over_density"); parameter_file, "EAGLEStarFormation:min_over_density");
/* Read the gas fraction from the file */ /* Read the gas fraction from the file */
starform->fgas = parser_get_opt_param_double( starform->fgas = parser_get_opt_param_double(
...@@ -559,7 +559,7 @@ INLINE static void starformation_init_backend( ...@@ -559,7 +559,7 @@ INLINE static void starformation_init_backend(
starform->max_gas_density_HpCM3 * number_density_from_cgs; starform->max_gas_density_HpCM3 * number_density_from_cgs;
starform->temperature_margin_threshold_dex = parser_get_opt_param_double( starform->temperature_margin_threshold_dex = parser_get_opt_param_double(
parameter_file, "EAGLEStarFormation:KS_temperature_margin_dex", FLT_MAX); parameter_file, "EAGLEStarFormation:EOS_temperature_margin_dex", FLT_MAX);
starform->ten_to_temperature_margin_threshold_dex = starform->ten_to_temperature_margin_threshold_dex =
exp10(starform->temperature_margin_threshold_dex); exp10(starform->temperature_margin_threshold_dex);
......
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