Merge pull request #7 from nqrduck/settings-update

Settings update
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Julia P 2024-04-12 13:16:15 +02:00 committed by GitHub
commit 231699e664
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@ -70,6 +70,8 @@ class SimulatorModel(BaseSpectrometerModel):
self.NUMBER_POINTS,
8192,
"Number of points used for the simulation. This influences the dwell time in combination with the total event simulation given by the pulse sequence.",
min_value=0,
spin_box=(True, False),
)
self.add_setting(
number_of_points_setting,
@ -80,6 +82,9 @@ class SimulatorModel(BaseSpectrometerModel):
self.NUMBER_ISOCHROMATS,
1000,
"Number of isochromats used for the simulation. This influences the computation time.",
min_value=0,
max_value=10000,
spin_box=(True, False),
)
self.add_setting(number_of_isochromats_setting, self.SIMULATION)
@ -87,6 +92,8 @@ class SimulatorModel(BaseSpectrometerModel):
self.INITIAL_MAGNETIZATION,
1,
"Initial magnetization",
min_value=0,
spin_box=(True, False),
)
self.add_setting(initial_magnetization_setting, self.SIMULATION)
@ -95,13 +102,17 @@ class SimulatorModel(BaseSpectrometerModel):
self.GRADIENT,
1,
"Gradient",
spin_box=(True, False),
)
self.add_setting(gradient_setting, self.SIMULATION)
noise_setting = FloatSetting(
self.NOISE,
2,
"Noise",
"Adds a specified level of random noise to the simulation to mimic real-world signal variations.",
min_value=0,
max_value=100,
spin_box=(True, False),
)
self.add_setting(noise_setting, self.SIMULATION)
@ -109,42 +120,48 @@ class SimulatorModel(BaseSpectrometerModel):
coil_length_setting = FloatSetting(
self.LENGTH_COIL,
30e-3,
"Length coil",
"The length of the sample coil within the hardware setup.",
min_value=1e-3,
)
self.add_setting(coil_length_setting, self.HARDWARE)
coil_diameter_setting = FloatSetting(
self.DIAMETER_COIL,
8e-3,
"Diameter coil",
"The diameter of the sample coil.",
min_value=1e-3,
)
self.add_setting(coil_diameter_setting, self.HARDWARE)
number_turns_setting = FloatSetting(
self.NUMBER_TURNS,
8,
"Number turns",
"The total number of turns of the sample coil.",
min_value=1,
)
self.add_setting(number_turns_setting, self.HARDWARE)
q_factor_transmit_setting = FloatSetting(
self.Q_FACTOR_TRANSMIT,
80,
"Q factor Transmit",
"The quality factor of the transmit path, which has an effect on the field strength for excitation.",
min_value=1,
)
self.add_setting(q_factor_transmit_setting, self.HARDWARE)
q_factor_receive_setting = FloatSetting(
self.Q_FACTOR_RECEIVE,
80,
"Q factor Receive",
"The quality factor of the receive path, which has an effect on the final SNR.",
min_value=1,
)
self.add_setting(q_factor_receive_setting, self.HARDWARE)
power_amplifier_power_setting = FloatSetting(
self.POWER_AMPLIFIER_POWER,
110,
"Power amplifier power",
"The power output capability of the power amplifier, determines the strength of pulses that can be generated.",
min_value=0.1,
)
self.add_setting(
power_amplifier_power_setting, self.HARDWARE
@ -153,7 +170,8 @@ class SimulatorModel(BaseSpectrometerModel):
gain_setting = FloatSetting(
self.GAIN,
6000,
"Gain of the complete measurement chain",
"The amplification factor of the receiver chain, impacting the final measured signal amplitude.",
min_value=0.1,
)
self.add_setting(
gain_setting, self.HARDWARE
@ -162,21 +180,30 @@ class SimulatorModel(BaseSpectrometerModel):
temperature_setting = FloatSetting(
self.TEMPERATURE,
300,
"Temperature",
"The absolute temperature during the experiment. This influences the SNR of the measurement.",
min_value=0.1,
max_value=400,
spin_box=(True, True),
)
self.add_setting(temperature_setting, self.EXPERIMENTAL_Setup)
loss_tx_setting = FloatSetting(
self.LOSS_TX,
25,
"Loss TX in dB",
"The signal loss occurring in the transmission path, affecting the effective RF pulse power.",
min_value=0.1,
max_value=60,
spin_box=(True, True),
)
self.add_setting(loss_tx_setting, self.EXPERIMENTAL_Setup)
loss_rx_setting = FloatSetting(
self.LOSS_RX,
25,
"Loss RX in dB",
"The signal loss in the reception path, which can reduce the signal that is ultimately detected.",
min_value=0.1,
max_value=60,
spin_box=(True, True),
)
self.add_setting(loss_rx_setting, self.EXPERIMENTAL_Setup)
@ -194,28 +221,31 @@ class SimulatorModel(BaseSpectrometerModel):
sample_name_setting = StringSetting(
self.NAME,
"BiPh3",
"Name",
"The name of the sample.",
)
self.add_setting(sample_name_setting, self.SAMPLE)
density_setting = FloatSetting(
self.DENSITY,
1.585e6,
"Density",
"The density of the sample. This is used to calculate the number of spins in the sample volume.",
min_value=0.1,
)
self.add_setting(density_setting, self.SAMPLE)
molar_mass_setting = FloatSetting(
self.MOLAR_MASS,
440.3,
"Molar mass",
"The molar mass of the sample. This is used to calculate the number of spins in the sample volume.",
min_value=0.1,
)
self.add_setting(molar_mass_setting, self.SAMPLE)
resonant_frequency_setting = FloatSetting(
self.RESONANT_FREQUENCY,
83.56e6,
"Resonant frequency",
"The resonant frequency of the observed transition.",
min_value=1e5,
)
self.add_setting(
resonant_frequency_setting, self.SAMPLE
@ -224,56 +254,70 @@ class SimulatorModel(BaseSpectrometerModel):
gamma_setting = FloatSetting(
self.GAMMA,
4.342e7,
"Gamma",
"The gyromagnetic ratio of the samples nuclei.",
min_value=0,
)
self.add_setting(gamma_setting, self.SAMPLE)
# This could be updated to a selection setting
nuclear_spin_setting = FloatSetting(
self.NUCLEAR_SPIN,
9 / 2,
"Nuclear spin",
"The nuclear spin of the samples nuclei.",
min_value=0,
)
self.add_setting(nuclear_spin_setting, self.SAMPLE)
spin_factor_setting = FloatSetting(
self.SPIN_FACTOR,
2,
"Spin factor",
"The spin factor represents the scaling coefficient for observable nuclear spin transitions along the x-axis, derived from the Pauli I x 0 -matrix elements.",
min_value=0,
)
self.add_setting(spin_factor_setting, self.SAMPLE)
powder_factor_setting = FloatSetting(
self.POWDER_FACTOR,
0.75,
"Powder factor",
"A factor representing the crystallinity of the solid sample. A value of 0.75 corresponds to a powder sample.",
min_value=0,
max_value=1,
spin_box=(True, False),
)
self.add_setting(powder_factor_setting, self.SAMPLE)
filling_factor_setting = FloatSetting(
self.FILLING_FACTOR,
0.7,
"Filling factor",
"The ratio of the sample volume that occupies the coils sensitive volume.",
min_value=0,
max_value=1,
spin_box=(True, False),
)
self.add_setting(filling_factor_setting, self.SAMPLE)
t1_setting = FloatSetting(
self.T1,
83.5e-5,
"T1",
"The longitudinal or spin-lattice relaxation time of the sample, influencing signal recovery between pulses.",
min_value=1e-6,
)
self.add_setting(t1_setting, self.SAMPLE)
t2_setting = FloatSetting(
self.T2,
396e-6,
"T2",
"The transverse or spin-spin relaxation time, determining the rate at which spins dephase and the signal decays in the xy plane",
min_value=1e-6,
)
self.add_setting(t2_setting, self.SAMPLE)
t2_star_setting = FloatSetting(
self.T2_STAR,
50e-6,
"T2*",
"The effective transverse relaxation time, incorporating effects of EFG inhomogeneities and other dephasing factors.",
min_value=1e-6,
)
self.add_setting(t2_star_setting, self.SAMPLE)