Synopsis
The XSPEC refsch model: reflected power law from ionized accretion disk.
Syntax
xsrefsch The xsrefsch model is an additive model component.
Description
The model is described at [1] .
Example
>>> create_model_component("xsrefsch", "mdl") >>> print(mdl)
Create a component of the xsrefsch model and display its default parameters. The output is:
mdl Param Type Value Min Max Units ----- ---- ----- --- --- ----- mdl.PhoIndex thawed 2 -10 10 mdl.foldE thawed 100 1 1e+06 keV mdl.rel_refl thawed 0 0 2 mdl.redshift frozen 0 -0.999 10 mdl.abund frozen 1 0.5 10 mdl.Fe_abund frozen 1 0.1 10 mdl.Incl frozen 30 19 87 deg mdl.T_disk frozen 30000 10000 1e+06 K mdl.xi thawed 1 0 5000 ergcm/s mdl.Betor10 frozen -2 -10 20 mdl.Rin frozen 10 6 10000 R_g mdl.Rout frozen 1000 0 1e+07 R_g mdl.accuracy frozen 30 30 100000 mdl.norm thawed 1 0 1e+24
ATTRIBUTES
The attributes for this object are:
Attribute | Definition |
---|---|
PhoIndex | The power-law photon index. |
foldE | The cut-off energy (E_c) in keV. Set to 0 for no cut off. |
rel_refl | The reflection scaling parameter (a value between 0 and 1 for an isotropic source above the disk, less than 0 for no direct component). |
redshift | The redshift of the source. |
abund | The abundance of the elements heavier than He relative to their solar abundance, as set by the set_xsabund function. |
Fe_abund | The iron abundance relative to the solar abundance, as set by the set_xsabund function. |
Incl | The inclination angle in degrees. |
T_disk | The disk temperature in K. |
xi | The disk ionization parameter: see [1] for more details. |
Betor10 | The power law dependence of emissivity: see [1] for more details. |
Rin | The inner radius, in units of GM^2/c. |
Rout | The outer radius, in units of GM^2/c. |
accuracy | The internal model accuracy: points of spectrum per energy decade. |
norm | The normalization of the model: see [1] for an explanation of the units. |
References
- [1] https://heasarc.gsfc.nasa.gov/xanadu/xspec/manual/XSmodelRefsch.html
XSPEC version
CIAO 4.15 comes with support for version 12.12.1c of the XSPEC models. This can be checked with the following:
% python -c 'from sherpa.astro import xspec; print(xspec.get_xsversion())' 12.12.1c
Bugs
See the bugs pages on the Sherpa website for an up-to-date listing of known bugs.