ESBO-ETC/esbo_etc/classes/optical_component/AOpticalComponent.py

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from ..IRadiant import IRadiant
from ..SpectralQty import SpectralQty
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from ...lib.helpers import error
from abc import abstractmethod
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import astropy.units as u
from astropy.modeling.models import BlackBody
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from typing import Union, Callable
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class AOpticalComponent(IRadiant):
"""
Abstract super class for an optical component
"""
@abstractmethod
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@u.quantity_input(obstructor_temp=[u.K, u.Celsius])
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def __init__(self, parent: IRadiant, transreflectivity: Union[SpectralQty, int, float, u.Quantity] = None,
noise: Union[SpectralQty, int, float, u.Quantity] = None, obstruction: float = 0,
obstructor_temp: u.Quantity = 0 * u.K, obstructor_emissivity: float = 1):
"""
Initialize a new optical component
Parameters
----------
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parent : IRadiant
The parent element of the optical component from which the electromagnetic radiation is received
transreflectivity : SpectralQty
The spectral transmission / reflectivity coefficient of the component. This coefficient is multiplied with
the incoming radiation from the parent element in order to propagate the incoming radiation through the
optical component.
noise : SpectralQty
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The noise created by the optical component as spectral radiance. This noise will be added to the propagated
incoming noise in order to calculate the overall noise.
obstruction : float
The additional obstruction factor of the optical component. 0 means the component is not obstructed, 1
denotes a completely obstructed component with therefore no incoming flux. It is important to note, that
the obstruction factor reflects the obstruction of the optical component additionally to the obstruction
factors of the prior elements in the beam.
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obstructor_temp : Quantity in Kelvin / Celsius
Temperature of the obstructing component.
obstructor_emissivity : float
Emissivity of the obstructing component.
"""
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self.__parent = parent
if transreflectivity:
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self.__transreflectivity = transreflectivity
if noise:
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self.__noise = noise
self.__obstruction = obstruction
self.__obstructor_temp = obstructor_temp
self.__obstructor_emissivity = obstructor_emissivity
def calcSignal(self) -> SpectralQty:
"""
Calculate the spectral flux density of the target's signal
Returns
-------
signal : SpectralQty
The spectral flux density of the target's signal
"""
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return self._propagate(self.__parent.calcSignal()) * (1 - self.__obstruction)
def calcNoise(self) -> SpectralQty:
"""
Calculate the spectral radiance of the target's noise
Returns
-------
noise : SpectralQty
The spectral radiance of the target's noise
"""
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parent = self._propagate(self.__parent.calcNoise())
if self.__obstructor_temp > 0 * u.K:
bb = BlackBody(temperature=self.__obstructor_temp, scale=1. * u.W / (u.m ** 2 * u.nm * u.sr))
obstructor = bb(parent.wl) * self.__obstructor_emissivity
noise = parent * (1. - self.__obstruction) + obstructor * self.__obstruction
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else:
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noise = parent * (1. - self.__obstruction)
return noise + self._ownNoise()
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def _propagate(self, rad: SpectralQty) -> SpectralQty:
"""
Propagate incoming radiation through the optical component
Parameters
----------
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rad : SpectralQty
The incoming radiation
Returns
-------
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rad : SpectralQty
Manipulated incoming radiation
"""
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try:
return rad * self.__transreflectivity
except AttributeError:
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error("Transreflectivity not given. Method propagate() needs to be implemented.")
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def _ownNoise(self) -> Union[SpectralQty, Callable[[u.Quantity], u.Quantity], int, float]:
"""
Calculate the noise created by the optical component
Returns
-------
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noise : Union[SpectralQty, Callable[[u.Quantity], u.Quantity], int, float]
The noise created by the optical component
"""
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try:
return self.__noise
except AttributeError:
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error("noise not given. Method ownNoise() needs to be implemented.")