Note
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Linear temporal model#
This model parametrises a linear time model.
\[F(t) = \alpha + \beta \cdot (t - t_{\rm{ref}})\]
Example plot#
Here is an example plot of the model:
from astropy import units as u
from astropy.time import Time
import matplotlib.pyplot as plt
from gammapy.modeling.models import (
LinearTemporalModel,
Models,
PowerLawSpectralModel,
SkyModel,
)
time_range = [Time.now(), Time.now() + 2 * u.d]
linear_model = LinearTemporalModel(
alpha=1, beta=0.5 / u.d, t_ref=(time_range[0].mjd - 0.1) * u.d
)
linear_model.plot(time_range)
plt.grid(which="both")
YAML representation#
Here is an example YAML file using the model:
model = SkyModel(
spectral_model=PowerLawSpectralModel(),
temporal_model=linear_model,
name="linear-model",
)
models = Models([model])
print(models.to_yaml())
components:
- name: linear-model
type: SkyModel
spectral:
type: PowerLawSpectralModel
parameters:
- name: index
value: 2.0
- name: amplitude
value: 1.0e-12
unit: cm-2 s-1 TeV-1
- name: reference
value: 1.0
unit: TeV
temporal:
type: LinearTemporalModel
parameters:
- name: alpha
value: 1.0
- name: beta
value: 0.5
unit: d-1
- name: t_ref
value: 60284.52876476183
unit: d
scale: utc