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--- lightcurves_models [2022/07/22 19:06]
theoastro
+++ lightcurves_models [2022/07/22 19:13] (current)
theoastro [Ka2017_TrPi2018_model]
@@ Line 148: / Line 148: @@
 Simple sum of two inclination-dependent Ka2017inc models.
 The model does not include photon absorption or any kind of interaction between the different components.
 Input parameters:
@@ Line 161: / Line 160: @@
 ----
-Ka2017x3inc_ejecta
+==== Ka2017x3inc_ejecta ====
 Simple sum of three inclination-dependent Ka2017inc models.
 The model does not include photon absorption or any kind of interaction between the different components.
 Input parameters:
@@ Line 179: / Line 177: @@
   iota --> inclination angle
-Bu2019_model_ejecta
+----
+==== Bu2019_model_ejecta ====
 Input parameters:
@@ Line 185: / Line 184: @@
   T --> temperature
-Bu2019inc
+----
+==== Bu2019inc ====
 Input parameters:
@@ Line 192: / Line 193: @@
   theta --> viewing angle
-Bu2019_op_model_ejecta
+----
+==== Bu2019_op_model_ejecta ====
 kappaLF, gammaLF, kappaLR, gammaLR
-Bu2019_ops_model_ejecta
+==== Bu2019_ops_model_ejecta ====
 kappaLF, kappaLR, gammaLR
+----
-Bu2019lf
+==== Bu2019lf
-mej_dyn,mej_wind,phi,theta
+  mej_dyn -> dynamical ejecta
+  mej_wind --> wind ejecta
+  phi --> angle between shock and tidal ejecta
+  theta --> viewing angle
+----
-Bu2019lr
+==== Bu2019lr ====
-mej_dyn,mej_wind,phi,theta
+  mej_dyn -> dynamical ejecta
+  mej_wind --> wind ejecta
+  phi --> angle between shock and tidal ejecta
+  theta --> viewing angle
-Bu2019lm
-mej_dyn,mej_wind,phi,theta
-Bu2019lw
+==== Bu2019lm ====
+  mej_dyn -> dynamical ejecta
+  mej_wind --> wind ejecta
+  phi --> angle between shock and tidal ejecta
+  theta --> viewing angle
-mej_wind,phi,theta
+==== Bu2019lw ====
-Bu2021ka_model_ejecta
+  mej_dyn -> dynamical ejecta
+  mej_wind --> wind ejecta
+  phi --> angle between shock and tidal ejecta
+  theta --> viewing angle
-mej_dyn,mej_wind,phi,theta,kappa
+==== Bu2021ka_model_ejecta ====
-Bu2019inc_TrPi2018
+  mej_dyn -> dynamical ejecta
+  mej_wind --> wind ejecta
+  phi --> angle between shock and tidal ejecta
+  theta --> viewing angle
+  kappa --> angle for opacity rescaling
-sn_model(z,t0,x0,x1,c):
+----
-boxfit_model(theta_0, E, n, theta_obs, p, epsilon_B, epsilon_E, ksi_N):
+==== Bu2019inc_TrPi2018 ====
-TrPi2018_model(theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B):
+Combination of Bulla2019_inc and TrPri2018, i.e., combining a GRB jet and a kilonova.
-Ka2017_TrPi2018_model(mej,vej,Xlan,theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B):
+----
-Bu2019inc_TrPi2018_model(mej,phi,theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B):
+==== TrPi2018_model ====
-Ka2017_TrPi2018_A_model(mej,vej,Xlan,theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B, A):
+input parameters: theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B
-Ka2017_A_model(mej,vej,Xlan,A)
+----
+==== Ka2017_TrPi2018_model ====
+input parameters: mej,vej,Xlan,theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B
+----
+==== Bu2019inc_TrPi2018_model ====
+input parameters: mej,phi,theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B
+----
+==== Ka2017_TrPi2018_A_model ====
+input parameters: mej,vej,Xlan,theta_v, E0, theta_c, theta_w, n, p, epsilon_E, epsilon_B, A
+----
+==== Ka2017_A_model ====
+input parameters: mej,vej,Xlan,A
 Ka2017 model in which the total luminosity is scalled with an additional factor A, i.e.,
 L_{bol} = A * L_{Ka2017,bol}
-Me2017_A_model(mej,vej,beta,kappa_r,A):
+----
+==== Me2017_A_model ====
+input parameters: mej,vej,beta,kappa_r,A
 --> is a _ejecta model without the suffix

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