EDispMap#
- class gammapy.irf.EDispMap(edisp_map, exposure_map=None)[source]#
Bases:
gammapy.irf.core.IRFMap
Energy dispersion map.
- Parameters
Examples
import numpy as np from astropy import units as u from astropy.coordinates import SkyCoord from gammapy.maps import WcsGeom, MapAxis from gammapy.irf import EnergyDispersion2D, EffectiveAreaTable2D from gammapy.makers.utils import make_edisp_map, make_map_exposure_true_energy # Define energy dispersion map geometry energy_axis_true = MapAxis.from_edges(np.logspace(-1, 1, 10), unit="TeV", name="energy_true") migra_axis = MapAxis.from_edges(np.linspace(0, 3, 100), name="migra") pointing = SkyCoord(0, 0, unit="deg") geom = WcsGeom.create( binsz=0.25 * u.deg, width=10 * u.deg, skydir=pointing, axes=[migra_axis, energy_axis_true], ) # Extract EnergyDispersion2D from CTA 1DC IRF filename = "$GAMMAPY_DATA/cta-1dc/caldb/data/cta/1dc/bcf/South_z20_50h/irf_file.fits" edisp2D = EnergyDispersion2D.read(filename, hdu="ENERGY DISPERSION") aeff2d = EffectiveAreaTable2D.read(filename, hdu="EFFECTIVE AREA") # Create the exposure map exposure_geom = geom.squash(axis_name="migra") exposure_map = make_map_exposure_true_energy(pointing, "1 h", aeff2d, exposure_geom) # create the EDispMap for the specified pointing edisp_map = make_edisp_map(edisp2D, pointing, geom, exposure_map) # Get an Energy Dispersion (1D) at any position in the image pos = SkyCoord(2.0, 2.5, unit="deg") energy_axis = MapAxis.from_energy_bounds(0.1, 10, 5, unit="TeV", name="energy") edisp = edisp_map.get_edisp_kernel(energy_axis, position=pos) # Write map to disk edisp_map.write("edisp_map.fits")
Attributes Summary
Mask safe for the map
Methods Summary
copy
()Copy IRF map
cutout
(position, width[, mode])Cutout IRF map.
downsample
(factor[, axis_name, weights])Downsample the spatial dimension by a given factor.
from_diagonal_response
(energy_axis_true[, ...])Create an allsky EDisp map with diagonal response.
from_geom
(geom)Create edisp map from geom.
from_hdulist
(hdulist[, hdu, hdu_bands, ...])Create from
HDUList
.get_edisp_kernel
(energy_axis[, position])Get energy dispersion at a given position.
Normalize PSF map
peek
([figsize])Quick-look summary plots.
read
(filename[, format, hdu])Read an IRF_map from file and create corresponding object"
sample_coord
(map_coord[, random_state])Apply the energy dispersion corrections on the coordinates of a set of simulated events.
slice_by_idx
(slices)Slice sub dataset.
stack
(other[, weights, nan_to_num])Stack IRF map with another one in place.
to_edisp_kernel_map
(energy_axis)Convert to map with edisp kernels
to_hdulist
([format])Convert to
HDUList
.to_region_nd_map
(region)Extract IRFMap in a given region or position
write
(filename[, overwrite, format])Write IRF map to fits
Attributes Documentation
- edisp_map#
- mask_safe_image#
Mask safe for the map
- required_axes = ['migra', 'energy_true']#
- tag = 'edisp_map'#
Methods Documentation
- copy()#
Copy IRF map
- cutout(position, width, mode='trim')#
Cutout IRF map.
- Parameters
- Returns
- cutout
IRFMap
Cutout IRF map.
- cutout
- downsample(factor, axis_name=None, weights=None)#
Downsample the spatial dimension by a given factor.
- classmethod from_diagonal_response(energy_axis_true, migra_axis=None)[source]#
Create an allsky EDisp map with diagonal response.
- classmethod from_geom(geom)[source]#
Create edisp map from geom.
By default a diagonal edisp matrix is created.
- Parameters
- geom
Geom
Edisp map geometry.
- geom
- Returns
- edisp_map
EDispMap
Energy dispersion map.
- edisp_map
- classmethod from_hdulist(hdulist, hdu=None, hdu_bands=None, exposure_hdu=None, exposure_hdu_bands=None, format='gadf')#
Create from
HDUList
.- Parameters
- hdulist
HDUList
HDU list.
- hdustr
Name or index of the HDU with the IRF map.
- hdu_bandsstr
Name or index of the HDU with the IRF map BANDS table.
- exposure_hdustr
Name or index of the HDU with the exposure map data.
- exposure_hdu_bandsstr
Name or index of the HDU with the exposure map BANDS table.
- format{“gadf”, “gtpsf”}
File format
- hdulist
- Returns
- irf_map
IRFMap
IRF map.
- irf_map
- get_edisp_kernel(energy_axis, position=None)[source]#
Get energy dispersion at a given position.
- Parameters
- energy_axis
MapAxis
Reconstructed energy axis
- position
SkyCoord
the target position. Should be a single coordinates
- energy_axis
- Returns
- edisp
EnergyDispersion
the energy dispersion (i.e. rmf object)
- edisp
- peek(figsize=(15, 5))[source]#
Quick-look summary plots. Plots corresponding to the center of the map.
- Parameters
- figsizetuple
Size of figure.
- classmethod read(filename, format='gadf', hdu=None)#
Read an IRF_map from file and create corresponding object”
- Parameters
- filenamestr or
Path
File name
- format{“gadf”, “gtpsf”}
File format
- hdustr or int
HDU location
- filenamestr or
- Returns
- irf_map
PSFMap
,EDispMap
orEDispKernelMap
IRF map
- irf_map
- sample_coord(map_coord, random_state=0)[source]#
Apply the energy dispersion corrections on the coordinates of a set of simulated events.
- Parameters
- map_coord
MapCoord
object. Sequence of coordinates and energies of sampled events.
- random_state{int, ‘random-seed’, ‘global-rng’,
RandomState
} Defines random number generator initialisation. Passed to
get_random_state
.
- map_coord
- Returns
MapCoord
.Sequence of Edisp-corrected coordinates of the input map_coord map.
- slice_by_idx(slices)#
Slice sub dataset.
The slicing only applies to the maps that define the corresponding axes.
- stack(other, weights=None, nan_to_num=True)#
Stack IRF map with another one in place.
- to_edisp_kernel_map(energy_axis)[source]#
Convert to map with edisp kernels
- Parameters
- energy_axis
MapAxis
Reconstructed energy axis.
- energy_axis
- Returns
- edisp
EDispKernelMap
Energy dispersion kernel map.
- edisp
- to_hdulist(format='gadf')#
Convert to
HDUList
.- Parameters
- format{“gadf”, “gtpsf”}
File format
- Returns
- hdu_list
HDUList
HDU list.
- hdu_list
- to_region_nd_map(region)#
Extract IRFMap in a given region or position
If a region is given a mean IRF is computed, if a position is given the IRF is interpolated.
- write(filename, overwrite=False, format='gadf')#
Write IRF map to fits
- Parameters
- filenamestr or
Path
Filename to write to
- overwritebool
Whether to overwrite
- format{“gadf”, “gtpsf”}
File format
- filenamestr or