irf - Instrument response functions¶
Introduction¶
gammapy.irf
handles instrument response functions (IRFs):
- Effective area (AEFF)
- Energy dispersion (EDISP)
- Point spread function (PSF)
Most of the formats defined at IACT IRFs are supported. Otherwise, at the moment, there is very little support for Fermi-LAT or other instruments.
Most users will not use gammapy.irf
directly, but will instead use IRFs as
part of their spectrum, image or cube analysis to compute exposure and effective
EDISP and PSF for a given dataset.
Most (at some point maybe all) classes in gammapy.irf
have an
gammapy.utils.nddata.NDDataArray
as data attribute to support interpolation.
Getting Started¶
See cta_1dc_introduction.html for an example how to access IACT IRFs.
Effective area¶
See EffectiveAreaTable
and EffectiveAreaTable2D
.
Background¶
See Background2D
and Background2D
.
PSF¶
The TablePSF
and EnergyDependentTablePSF
classes
represent radially-symmetric PSFs where the PSF is given at a number of offsets.
The PSFKernel
represents a PSF kernel.
()
Energy Dispersion¶
The EnergyDispersion
class represents an energy migration matrix
(finite probabilities per pixel) with y=log(energy_reco)
.
The EnergyDispersion2D
class represents a probability density
with y=energy_reco/energy_true
that can also have a FOV offset dependence.
()
Using gammapy.irf
¶
If you’d like to learn more about using gammapy.irf
, read the following
sub-pages:
Reference/API¶
gammapy.irf Package¶
Instrument response functions (IRFs).
Functions¶
apply_containment_fraction (aeff, psf, radius) |
Estimate PSF containment inside a given radius and correct effective area for leaking flux. |
load_cta_irfs (filename) |
load CTA instrument response function and return a dictionary container. |
make_mean_edisp (observations, position, …) |
Compute mean energy dispersion. |
make_mean_psf (observations, position[, …]) |
Compute mean energy-dependent PSF. |
make_psf (observation, position[, energy, rad]) |
Make energy-dependent PSF for a given source position. |
Classes¶
Background2D (energy_lo, energy_hi, …[, …]) |
Background 2D. |
Background3D (energy_lo, energy_hi, …[, …]) |
Background 3D. |
EffectiveAreaTable (energy_lo, energy_hi, data) |
Effective area table. |
EffectiveAreaTable2D (energy_lo, energy_hi, …) |
2D effective area table. |
EnergyDependentMultiGaussPSF (energy_lo, …) |
Triple Gauss analytical PSF depending on energy and theta. |
EnergyDependentTablePSF (energy, rad[, …]) |
Energy-dependent radially-symmetric table PSF (gtpsf format). |
EnergyDispersion (e_true_lo, e_true_hi, …) |
Energy dispersion matrix. |
EnergyDispersion2D (e_true_lo, e_true_hi, …) |
Offset-dependent energy dispersion matrix. |
IRFStacker (list_aeff, list_livetime[, …]) |
Stack instrument response functions. |
PSF3D (energy_lo, energy_hi, offset, rad_lo, …) |
PSF with axes: energy, offset, rad. |
PSFKing (energy_lo, energy_hi, offset, gamma, …) |
King profile analytical PSF depending on energy and offset. |
TablePSF (rad, psf_value[, interp_kwargs]) |
Radially-symmetric table PSF. |