MooreProfile¶
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class
gammapy.astro.darkmatter.profiles.
MooreProfile
(r_s=None, rho_s=<Quantity 1. GeV / cm3>)[source]¶ Bases:
gammapy.astro.darkmatter.profiles.DMProfile
Moore Profile.
\[\rho(r) = \rho_s \left(\frac{r_s}{r}\right)^{1.16} \left(1 + \frac{r}{r_s} \right)^{-1.84}\]Parameters: - r_s :
Quantity
Scale radius, \(r_s\)
References
Attributes Summary
DEFAULT_SCALE_RADIUS
Default scale radius as given in reference 2 DISTANCE_GC
LOCAL_DENSITY
Methods Summary
__call__
(radius)Call evaluate method of derived classes. evaluate
(radius, r_s, rho_s)integral
(rmin, rmax, **kwargs)Integrate squared dark matter profile numerically. scale_to_local_density
()Scale to local density. Attributes Documentation
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DEFAULT_SCALE_RADIUS
= <Quantity 30.28 kpc>¶ Default scale radius as given in reference 2
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DISTANCE_GC
= <Quantity 8.33 kpc>¶
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LOCAL_DENSITY
= <Quantity 0.3 GeV / cm3>¶
Methods Documentation
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__call__
(radius)¶ Call evaluate method of derived classes.
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integral
(rmin, rmax, **kwargs)¶ Integrate squared dark matter profile numerically.
\[F(r_{min}, r_{max}) = \int_{r_{min}}^{r_{max}}\rho(r)^2 dr\]Parameters: - rmin, rmax :
Quantity
Lower and upper bound of integration range.
- **kwargs : dict
Keyword arguments passed to
integrate_spectrum()
- rmin, rmax :
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scale_to_local_density
()¶ Scale to local density.
- r_s :