SourceCatalogObject3FGL

class gammapy.catalog.SourceCatalogObject3FGL(data, data_extended=None)

Bases: gammapy.catalog.fermi.SourceCatalogObjectFermiBase

One source from the Fermi-LAT 3FGL catalog.

Catalog is represented by SourceCatalog3FGL.

Attributes Summary

asso
energy_range	Energy range used for the catalog.
flux_points	Flux points as a FluxPoints object.
flux_points_meta
flux_points_table	Flux points as a Table.
is_pointlike
name	Source name as a string.
position	Source position as an SkyCoord object.
row_index	Row index of source in catalog as an integer.

Methods Summary

info([info])	Summary information string.
lightcurve()	Lightcurve as a FluxPoints object.
sky_model([name])	Sky model as a SkyModel object.
spatial_model()	Spatial model as a SpatialModel object.
spectral_model()	Best fit spectral model as a SpectralModel object.

Attributes Documentation

asso = ['ASSOC1', 'ASSOC2', 'ASSOC_TEV', 'ASSOC_GAM1', 'ASSOC_GAM2', 'ASSOC_GAM3']

energy_range = <Quantity [   100., 100000.] MeV>

Energy range used for the catalog.

Paper says that analysis uses data up to 300 GeV, but results are all quoted up to 100 GeV only to be consistent with previous catalogs.

flux_points

Flux points as a FluxPoints object.

flux_points_meta = {'n_sigma': 1, 'n_sigma_ul': 2, 'sed_type_init': 'flux', 'sqrt_ts_threshold_ul': 1}

flux_points_table

Flux points as a Table.

is_pointlike

name

Source name as a string.

position

Source position as an SkyCoord object.

row_index

Row index of source in catalog as an integer.

Methods Documentation

info(info='all')

Summary information string.

Parameters

info{‘all’, ‘basic’, ‘more’, ‘position’, ‘spectral’, ‘lightcurve’}

Comma separated list of options.

lightcurve()

Lightcurve as a FluxPoints object.

sky_model(name=None)

Sky model as a SkyModel object.

spatial_model()

Spatial model as a SpatialModel object.

spectral_model()

Best fit spectral model as a SpectralModel object.