FluxPointEstimator¶

class gammapy.spectrum.FluxPointEstimator(obs, groups, model, norm_min=0.2, norm_max=5, norm_n_values=11, norm_values=None, sigma=1, sigma_ul=2)[source]¶

Bases: object

Flux point estimator.

Estimates flux points for a given spectrum observation dataset, energy groups and spectral model.

To estimate the flux point the amplitude of the reference spectral model is fitted within the energy range defined by the energy group. This is done for each group independently. The amplitude is re-normalized using the “norm” parameter, which specifies the deviation of the flux from the reference model in this energy group. See https://gamma-astro-data-formats.readthedocs.io/en/latest/spectra/binned_likelihoods/index.html for details.

The method is also described in the FERMI-LAT catalog paper https://ui.adsabs.harvard.edu/#abs/2015ApJS..218…23A or the HESS Galactic Plane Survey paper https://ui.adsabs.harvard.edu/#abs/2018A%26A…612A…1H

Parameters:

obs : SpectrumObservation or SpectrumObservationList: Spectrum observation(s)
groups : SpectrumEnergyGroups: Energy groups (usually output of SpectrumEnergyGroupMaker)
model : SpectralModel: Global model (usually output of SpectrumFit)
norm_min : float: Minimum value for the norm used for the likelihood profile evaluation.
norm_max : float: Maximum value for the norm used for the likelihood profile evaluation.
norm_n_values : int: Number of norm values used for the likelihood profile.
norm_values : numpy.ndarray: Array of norm values to be used for the likelihood profile.
sigma : int: Sigma to use for asymmetric error computation.
sigma_ul : int: Sigma to use for upper limit computation.

Attributes Summary

ref_model

Methods Summary

`estimate_flux_point`(e_group[, steps])	Estimate flux point for a single energy group.
`estimate_norm`()	Fit norm of the flux point.
`estimate_norm_err`()	Estimate covariance errors for a flux point.
`estimate_norm_errn_errp`()	Estimate asymmetric errors for a flux point.
`estimate_norm_scan`(flux_point)	Estimate likelihood profile for the norm parameter
`estimate_norm_ts`()	Estimate ts and sqrt(ts) for the flux point.
`estimate_norm_ul`()	Estimate upper limit for a flux point.
`run`([steps])	Run the flux point estimator for all energy groups.

Attributes Documentation

ref_model¶

Methods Documentation

estimate_flux_point(e_group, steps='all')[source]¶

Estimate flux point for a single energy group.

Parameters:	e_group : `SpectrumEnergyGroup` Energy group to compute the flux point for. steps : list of str Which steps to execute. Available options are: “err”: estimate symmetric error. “errn-errp”: estimate asymmetric errors. “ul”: estimate upper limits. “ts”: estimate ts and sqrt(ts) values. “norm-scan”: estimate likelihood profiles. By default all steps are executed.
Returns:	result : dict Dict with results for the flux point.

estimate_norm()[source]¶

Fit norm of the flux point.

Returns:	result : dict Dict with “norm” and “loglike” for the flux point.

estimate_norm_err()[source]¶

Estimate covariance errors for a flux point.

Returns:	result : dict Dict with symmetric error for the flux point norm.

estimate_norm_errn_errp()[source]¶

Estimate asymmetric errors for a flux point.

Returns:	result : dict Dict with asymmetric errors for the flux point norm.

estimate_norm_scan(flux_point)[source]¶

Estimate likelihood profile for the norm parameter

Returns:	result : dict Dict with norm_scan and dloglike_scan for the flux point.

estimate_norm_ts()[source]¶

Estimate ts and sqrt(ts) for the flux point.

Returns:	result : dict Dict with ts and srtq_ts for the flux point.

estimate_norm_ul()[source]¶

Estimate upper limit for a flux point.

Returns:	result : dict Dict with upper limit for the flux point norm.

run(steps='all')[source]¶

Run the flux point estimator for all energy groups.

Returns:	flux_points : `FluxPoints` Estimated flux points. steps : list of str Which steps to execute. See `estimate_flux_point` for details and available options.