Note
Click here to download the full example code
Super Exponential Cutoff Power Law Model used for 4FGL¶
This model parametrises super exponential cutoff power-law model spectrum used for 4FGL.
It is defined by the following equation:
\[\phi(E) = \phi_0 \cdot \left(\frac{E}{E_0}\right)^{-\Gamma_1}
\exp \left(
a \left( E_0 ^{\Gamma_2} - E^{\Gamma_2} \right)
\right)\]
See Equation (3) in https://arxiv.org/pdf/1902.10045.pdf
Example plot¶
Here is an example plot of the model:
from astropy import units as u
import matplotlib.pyplot as plt
from gammapy.modeling.models import (
Models,
SkyModel,
SuperExpCutoffPowerLaw4FGLSpectralModel,
)
energy_range = [0.1, 100] * u.TeV
model = SuperExpCutoffPowerLaw4FGLSpectralModel(
index_1=1,
index_2=2,
amplitude="1e-12 TeV-1 cm-2 s-1",
reference="1 TeV",
expfactor=1e-2,
)
model.plot(energy_range)
plt.grid(which="both")
plt.ylim(1e-24, 1e-10)
YAML representation¶
Here is an example YAML file using the model:
Out:
components:
- name: super-exp-cutoff-power-law-4fgl-model
type: SkyModel
spectral:
type: SuperExpCutoffPowerLaw4FGLSpectralModel
parameters:
- {name: amplitude, value: 1.0e-12, unit: cm-2 s-1 TeV-1, min: .nan, max: .nan,
frozen: false}
- {name: reference, value: 1.0, unit: TeV, min: .nan, max: .nan, frozen: true}
- {name: expfactor, value: 0.01, unit: '', min: .nan, max: .nan, frozen: false}
- {name: index_1, value: 1.0, unit: '', min: .nan, max: .nan, frozen: false}
- {name: index_2, value: 2.0, unit: '', min: .nan, max: .nan, frozen: false}