"""Photodiode quantum noise detector."""
import numpy as np
from finesse.detectors.compute.quantum import (
QND0Workspace,
QNDNWorkspace,
QShot0Workspace,
QShotNWorkspace,
QuantumNoiseDetectorWorkspace,
)
from finesse.detectors.general import Detector, NoiseDetector
from finesse.components.general import NoiseType
from finesse.parameter import float_parameter
# IMPORTANT: renaming this class impacts the katscript spec and should be avoided!
[docs]class QuantumNoiseDetector(Detector, NoiseDetector):
"""Represents a quantum noise detector with no RF demodulations.
It calculates the amplitude spectral density of the photocurrent
noise of a photodiode output demodulated at the signal frequency.
Parameters
----------
name : str
Name of newly created quantum noise detector.
node : :class:`.Node`
Node to read output from.
nsr : bool, optional
If true, calculate the noise-to-signal ratio rather than the absolute
noise value.
sources : list of :class:`.Connector`, optional
If given, only detect quantum noise contributions from these components.
exclude_sources : list of :class:`.Connector`, optional
If given, this will not detect quantum noise contributions from any of
these components, even if explicitly specified in `sources`.
"""
def __init__(self, name, node, nsr=False, sources=None, exclude_sources=None):
Detector.__init__(
self, name, node, dtype=np.float64, unit="1/sqrt(Hz)", label="ASD"
)
NoiseDetector.__init__(self, NoiseType.QUANTUM)
self.nsr = nsr
self.sources = sources
self.exclude_sources = exclude_sources
self._request_selection_vector(name)
def _has_sources(self):
return self.sources is not None or self.exclude_sources is not None
def _get_workspace(self, sims):
if sims.signal is None:
return None
ws = QND0Workspace(self, sims, self.nsr, self.sources, self.exclude_sources)
return ws
[docs]@float_parameter("f", "Frequency")
@float_parameter("phase", "Phase")
# IMPORTANT: renaming this class impacts the katscript spec and should be avoided!
class QuantumNoiseDetectorDemod1(Detector, NoiseDetector):
"""Represents a quantum noise detector with 1 RF demodulation.
It calculates the amplitude spectral density of the photocurrent
noise of a photodiode output demodulated at the signal frequency.
Parameters
----------
name : str
Name of newly created quantum noise detector.
node : :class:`.Node`
Node to read output from.
f : float
Demodulation frequency in Hz
phase : float
Demodulation phase in degrees
nsr : bool, optional
If true, calculate the noise-to-signal ratio rather than the absolute
noise value.
sources : list of :class:`.Connector`, optional
If given, only detect quantum noise contributions from these components.
"""
def __init__(
self, name, node, f, phase, nsr=False, sources=None, exclude_sources=None
):
Detector.__init__(
self, name, node, dtype=np.float64, unit="1/sqrt(Hz)", label="ASD"
)
NoiseDetector.__init__(self, NoiseType.QUANTUM)
self.f = f
self.phase = phase
self.nsr = nsr
self.sources = sources
self.exclude_sources = exclude_sources
self._request_selection_vector(name)
def _has_sources(self):
return self.sources is not None or self.exclude_sources is not None
def _get_workspace(self, sims):
if sims.signal is None:
return None
ws = QNDNWorkspace(
self,
sims,
[(self.f, self.phase)],
self.nsr,
self.sources,
self.exclude_sources,
)
return ws
[docs]@float_parameter("f1", "Frequency")
@float_parameter("f2", "Frequency")
@float_parameter("phase1", "Phase")
@float_parameter("phase2", "Phase")
# IMPORTANT: renaming this class impacts the katscript spec and should be avoided!
class QuantumNoiseDetectorDemod2(Detector, NoiseDetector):
"""Represents a quantum noise detector with 2 RF demodulations.
It calculates the amplitude spectral density of the photocurrent
noise of a photodiode output demodulated at the signal frequency.
Parameters
----------
name : str
Name of newly created quantum noise detector.
node : :class:`.Node`
Node to read output from.
f1 : float
First demodulation frequency in Hz
phase1 : float
First demodulation phase in degrees
f2 : float
Second demodulation frequency in Hz
phase2 : float
Second demodulation phase in degrees
nsr : bool, optional
If true, calculate the noise-to-signal ratio rather than the absolute
noise value.
sources : list of :class:`.Connector`, optional
If given, only detect quantum noise contributions from these components.
"""
def __init__(
self,
name,
node,
f1,
phase1,
f2,
phase2,
nsr=False,
sources=None,
exclude_sources=None,
):
Detector.__init__(
self, name, node, dtype=np.float64, unit="1/sqrt(Hz)", label="ASD"
)
NoiseDetector.__init__(self, NoiseType.QUANTUM)
self.f1 = f1
self.f2 = f2
self.phase1 = phase1
self.phase2 = phase2
self.nsr = nsr
self.sources = sources
self.exclude_sources = exclude_sources
self._request_selection_vector(name)
def _has_sources(self):
return self.sources is not None or self.exclude_sources is not None
def _get_workspace(self, sims):
if sims.signal is None:
return None
ws = QNDNWorkspace(
self,
sims,
[(self.f1, self.phase1), (self.f2, self.phase2)],
self.nsr,
self.sources,
self.exclude_sources,
)
return ws
# IMPORTANT: renaming this class impacts the katscript spec and should be avoided!
[docs]class QuantumShotNoiseDetector(Detector):
"""Represents a quantum shot noise detector with no RF demodulations.
It calculates the amplitude spectral density of the photocurrent
noise of a photodiode output demodulated at the signal frequency,
considering only vacuum noise contributions (ignoring radiation
pressure and squeezing effects).
Parameters
----------
name : str
Name of newly created quantum shot noise detector.
node : :class:`.Node`
Node to read output from.
nsr : bool, optional
If true, calculate the noise-to-signal ratio rather than the absolute
noise value.
"""
def __init__(self, name, node, nsr=False):
self.nsr = nsr
Detector.__init__(
self, name, node, dtype=np.float64, unit="W/sqrt(Hz)", label="ASD"
)
def _get_workspace(self, sim):
if sim.signal is None:
return None
ws = QShot0Workspace(self, sim, self.nsr)
return ws
[docs]@float_parameter("f", "Frequency")
@float_parameter("phase", "Phase")
# IMPORTANT: renaming this class impacts the katscript spec and should be avoided!
class QuantumShotNoiseDetectorDemod1(Detector):
"""Represents a quantum shot noise detector with 1 RF demodulation.
It calculates the amplitude spectral density of the photocurrent
noise of a photodiode output demodulated at the signal frequency,
considering only vacuum noise contributions (ignoring radiation
pressure and squeezing effects).
Parameters
----------
name : str
Name of newly created quantum shot noise detector.
node : :class:`.Node`
Node to read output from.
f : float
Demodulation frequency in Hz
phase : float
Demodulation phase in degrees
nsr : bool, optional
If true, calculate the noise-to-signal ratio rather than the absolute
noise value.
"""
def __init__(self, name, node, f, phase, nsr=False):
Detector.__init__(
self, name, node, dtype=np.float64, unit="W/sqrt(Hz)", label="ASD"
)
self.f = f
self.phase = phase
self.nsr = nsr
def _get_workspace(self, sims):
if sims.signal is None:
return None
ws = QShotNWorkspace(
self,
sims,
[
(self.f, self.phase),
],
self.nsr,
)
return ws
[docs]@float_parameter("f1", "Frequency")
@float_parameter("f2", "Frequency")
@float_parameter("phase1", "Phase")
@float_parameter("phase2", "Phase")
# IMPORTANT: renaming this class impacts the katscript spec and should be avoided!
class QuantumShotNoiseDetectorDemod2(Detector):
"""Represents a quantum shot noise detector with 2 RF demodulations.
It calculates the amplitude spectral density of the photocurrent
noise of a photodiode output demodulated at the signal frequency,
considering only vacuum noise contributions (ignoring radiation
pressure and squeezing effects).
Parameters
----------
name : str
Name of newly created quantum shot noise detector.
node : :class:`.Node`
Node to read output from.
f1 : float
First demodulation frequency in Hz
phase1 : float
First demodulation phase in degrees
f2 : float
Second demodulation frequency in Hz
phase2 : float
Second demodulation phase in degrees
nsr : bool, optional
If true, calculate the noise-to-signal ratio rather than the absolute
noise value.
"""
def __init__(self, name, node, f1, phase1, f2, phase2, nsr=False):
Detector.__init__(
self, name, node, dtype=np.float64, unit="1/sqrt(Hz)", label="ASD"
)
self.f1 = f1
self.f2 = f2
self.phase1 = phase1
self.phase2 = phase2
self.nsr = nsr
def _get_workspace(self, sims):
if sims.signal is None:
return None
ws = QShotNWorkspace(
self, sims, [(self.f1, self.phase1), (self.f2, self.phase2)], self.nsr
)
return ws
# IMPORTANT: renaming this class impacts the katscript spec and should be avoided!
[docs]class GeneralQuantumNoiseDetector(Detector, NoiseDetector):
"""Represents a quantum noise detector.
This detector calculates the amplitude spectral density of the
photocurrent noise of a DC or demodulated photodiode output.
Parameters
----------
name : str
Name of newly created quantum noise detector.
node : :class:`.Node`
Node to read output from.
freqs : list of float or :class:`.Frequency`, optional
List of mixer demodulation frequencies (in Hz).
phases : list of float, optional
List of mixer demodulation phases (in Hz).
shot_only : bool, optional
If True, detect only vacuum noise contributions.
"""
def __init__(self, name, node, freqs=None, phases=None, shot_only=False):
if freqs is None:
freqs = []
if phases is None:
phases = []
Detector.__init__(
self, name, node, dtype=np.float64, unit="1/sqrt(Hz)", label="ASD"
)
NoiseDetector.__init__(self, NoiseType.QUANTUM)
if len(freqs) == 0:
self.__mode = "dc"
elif len(phases) == len(freqs):
self.__mode = "mixer"
else:
raise ValueError("'phases' must be as long as 'freqs'.")
self.freqs = np.array(freqs)
self.phases = np.array(phases)
self.shot_only = shot_only
self._request_selection_vector(name)
def _get_workspace(self, sims):
if sims.signal is None:
return None
ws = QuantumNoiseDetectorWorkspace(self, sims)
return ws