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9 Commits
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7ef1657578
Author | SHA1 | Date | |
---|---|---|---|
7ef1657578 | |||
Gordon McCann | ae5724afbc | ||
Gordon McCann | 106e8ea70c | ||
Gordon McCann | b0a4cc3609 | ||
Gordon McCann | 1d6af4966a | ||
Gordon McCann | 41781a374f | ||
Gordon McCann | 462e959100 | ||
Gordon McCann | c866c07abc | ||
Gordon McCann | f128974fa7 |
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@ -89,7 +89,6 @@ class Reaction:
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beamRxnEnergy = self.params.beamEnergy - self.targetMaterial.get_incoming_energyloss(self.params.projectile.Z, self.params.projectile.mass, self.params.beamEnergy, self.rxnLayer, 0.0)
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beamRxnP = sqrt(beamRxnEnergy * (beamRxnEnergy + 2.0 * self.params.projectile.mass))
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residRxnEnergy = beamRxnEnergy + self.params.projectile.mass + self.params.target.mass - ejectileRxnEnergy - self.params.ejectile.mass
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residRxnP2 = beamRxnP**2.0 + ejectileRxnP**2.0 - 2.0 * ejectileRxnP * beamRxnP * cos(self.params.spsAngle)
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return sqrt(residRxnEnergy**2.0 - residRxnP2) - self.residual.mass
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@ -13,7 +13,7 @@ class TargetLayer:
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thickness: float = 0.0 #ug/cm^2
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def __str__(self) -> str:
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return "".join([f"{global_nuclear_data.get_data(z, a,).prettyIsotopicSymbol}<sub>{s}<\sub>" for z, a, s in self.compound_list])
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return "".join([f"{global_nuclear_data.get_data(z, a,).prettyIsotopicSymbol}<sub>{s}</sub>" for z, a, s in self.compound_list])
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#integrate energy loss starting from the final energy and running backwards to initial energy
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#catima does not natively provide this type of method
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@ -43,10 +43,10 @@ def get_reverse_energyloss(projectile: catima.Projectile, material: catima.Mater
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e_step = catima.dedx(projectile, material)*x_step
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e_initial += e_step*A_recip
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projectile.T(e_initial)
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return (e_initial - e_out)*projectile.A()
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return (e_initial - e_out)
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elif depth == ADAPTIVE_DEPTH_MAX:
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return e_out*projectile.A()
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return e_out
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else:
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e_step = catima.dedx(projectile, material)*x_step
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e_initial += e_step*A_recip
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@ -80,10 +80,10 @@ def get_energyloss(projectile: catima.Projectile, material: catima.Material) ->
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e_step = catima.dedx(projectile, material)*x_step*A_recip
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e_final -= e_step
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projectile.T(e_final)
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return (e_in - e_final)*projectile.A()
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return (e_in - e_final)
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elif depth == ADAPTIVE_DEPTH_MAX:
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return e_in*projectile.A()
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return e_in
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else:
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e_step = catima.dedx(projectile, material)*x_step*A_recip
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@ -94,6 +94,7 @@ def get_energyloss(projectile: catima.Projectile, material: catima.Material) ->
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class SPSTarget:
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MEV2U: float = 1.0/931.493614838475
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UG2G: float = 1.0e-6 #convert ug to g
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def __init__(self, layers: list[TargetLayer], name: str = "default"):
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self.layer_details = layers
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@ -114,31 +115,33 @@ class SPSTarget:
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if angle == pi*0.5:
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return e_initial
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projectile = catima.Projectile(ap, zp)
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e_current = e_initial/ap
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ap_u = ap * self.MEV2U
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projectile = catima.Projectile(ap_u, zp)
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e_current = e_initial/ap_u
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for (idx, layer) in enumerate(self.layer_details):
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material = catima.Material([(global_nuclear_data.get_data(z, a).mass, z, float(s)) for (z, a, s) in layer.compound_list])
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material = catima.Material([(global_nuclear_data.get_data(z, a).mass * self.MEV2U, z, float(s)) for (z, a, s) in layer.compound_list])
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projectile.T(e_current) #catima wants MeV/u
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if idx == rxn_layer:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / (2.0 * abs(cos(angle))))
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e_current -= get_energyloss(projectile, material)
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return e_initial - e_current*ap
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return e_initial - e_current*ap_u
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else:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / abs(cos(angle)))
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e_current -= get_energyloss(projectile, material)
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return e_initial - e_current*ap
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return e_initial - e_current*ap_u
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#Calculate energy loss for a particle leaving the target, from rxn layer (halfway through rxn layer) to end
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def get_outgoing_energyloss(self, zp: int, ap: float, e_initial: float, rxn_layer: int, angle: float) -> float:
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if angle == pi*0.5:
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return e_initial
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projectile = catima.Projectile(ap, zp)
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e_current = e_initial/ap
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ap_u = ap * self.MEV2U
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projectile = catima.Projectile(ap_u, zp)
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e_current = e_initial/ap_u
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for (idx, layer) in enumerate(self.layer_details[rxn_layer:], start=rxn_layer):
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material = catima.Material([(global_nuclear_data.get_data(z, a).mass, z, float(s)) for (z, a, s) in layer.compound_list])
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material = catima.Material([(global_nuclear_data.get_data(z, a).mass * self.MEV2U, z, float(s)) for (z, a, s) in layer.compound_list])
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projectile.T(e_current) #catima wants MeV/u
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if idx == rxn_layer:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / (2.0 * abs(cos(angle))))
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@ -146,19 +149,20 @@ class SPSTarget:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / abs(cos(angle)))
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e_current -= get_energyloss(projectile, material)
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return e_initial - e_current*ap
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return e_initial - e_current*ap_u
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#Calculate reverse energy loss (energy gain) for a particle that left the target after a reaction (end -> rxn_layer)
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def get_outgoing_reverse_energyloss(self, zp: int, ap: float, e_final: float, rxn_layer: int, angle: float) -> float:
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if angle == pi*0.5:
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return 0.0
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projectile = catima.Projectile(ap, zp)
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e_current = e_final/ap
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ap_u = ap * self.MEV2U
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projectile = catima.Projectile(ap_u, zp)
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e_current = e_final/ap_u
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sublist = self.layer_details[rxn_layer:] #only care about rxn_layer -> exit
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reveresedRxnLayer = len(sublist) -1 #when reversed rxn_layer is the last layer
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for (idx, layer) in reversed(list(enumerate(sublist))):
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material = catima.Material([(global_nuclear_data.get_data(z, a).mass, z, float(s)) for (z, a, s) in layer.compound_list])
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material = catima.Material([(global_nuclear_data.get_data(z, a).mass * self.MEV2U, z, float(s)) for (z, a, s) in layer.compound_list])
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projectile.T(e_current) #catima wants MeV/u
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if idx == reveresedRxnLayer:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / (2.0 * abs(cos(angle))))
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@ -166,5 +170,5 @@ class SPSTarget:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / abs(cos(angle)))
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e_current += get_reverse_energyloss(projectile, material)
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return e_current*ap - e_final
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return e_current*ap_u - e_final
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@ -7,6 +7,7 @@ import numpy as np
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from enum import Enum
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INVALID_PEAK_ID: int = -1
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DEG2RAD: float = np.pi / 180.0
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class PeakType(Enum):
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CALIBRATION = "Calibration"
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@ -58,6 +59,7 @@ class Spanc:
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print("Cannot create reaction with non-existant target ", targetName)
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return
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key = f"Rxn{len(self.reactions)}"
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params.spsAngle *= DEG2RAD
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rxn = Reaction(params, target=self.targets[targetName])
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self.reactions[key] = rxn
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@ -65,7 +67,7 @@ class Spanc:
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if rxnName in self.reactions:
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rxn = self.reactions[rxnName]
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rxn.params.beamEnergy = beamEnergy
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rxn.params.spsAngle = spsAngle
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rxn.params.spsAngle = spsAngle * DEG2RAD
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rxn.params.magneticField = magneticField
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def add_calibration(self, data: Peak) -> None:
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@ -77,6 +79,12 @@ class Spanc:
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data.peakID = len(self.calibrations)
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self.calibrations[data.peakID] = data
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return
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def remove_calibration(self, data: Peak) -> bool:
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if data.peakID not in self.calibrations.keys():
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return False
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self.calibrations.pop(data.peakID)
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return True
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def add_output(self, data: Peak) -> None:
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if data.peakID == INVALID_PEAK_ID:
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@ -1,4 +1,4 @@
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from .Spanc import Spanc, PeakType
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from .Spanc import Spanc, PeakType, DEG2RAD
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from .Fitter import convert_fit_points_to_arrays, convert_resid_points_to_arrays
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from .ui.MPLCanvas import MPLCanvas
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from .ui.ReactionDialog import ReactionDialog
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@ -116,6 +116,7 @@ class SpancGUI(QMainWindow):
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self.tablelayout.addWidget(self.targetGroup)
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self.targetTable.resizeColumnsToContents()
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self.targetTable.cellDoubleClicked.connect(self.handle_update_target)
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self.targetTable.setEditTriggers(QTableWidget.EditTrigger.NoEditTriggers)
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def create_reaction_table(self) -> None:
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self.rxnGroup = QGroupBox("Reactions", self.tableTab)
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@ -128,30 +129,33 @@ class SpancGUI(QMainWindow):
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self.tablelayout.addWidget(self.rxnGroup)
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self.reactionTable.resizeColumnsToContents()
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self.reactionTable.cellDoubleClicked.connect(self.handle_update_reaction)
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self.reactionTable.setEditTriggers(QTableWidget.EditTrigger.NoEditTriggers)
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def create_calibration_table(self) -> None:
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self.calGroup = QGroupBox("Calibration Peaks", self.tableTab)
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calLayout = QVBoxLayout()
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self.calibrationTable = QTableWidget(self.calGroup)
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self.calibrationTable.setColumnCount(8)
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self.calibrationTable.setHorizontalHeaderLabels(["Reaction","x(mm)","ux stat.(mm)","ux sys.(mm)","rho(cm)","urho(cm)","Ex(MeV)","uEx(MeV)"])
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self.calibrationTable.setColumnCount(9)
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self.calibrationTable.setHorizontalHeaderLabels(["Peak ID","Reaction","x(mm)","ux stat.(mm)","ux sys.(mm)","rho(cm)","urho(cm)","Ex(MeV)","uEx(MeV)"])
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calLayout.addWidget(self.calibrationTable)
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self.calGroup.setLayout(calLayout)
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self.tablelayout.addWidget(self.calGroup)
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self.calibrationTable.resizeColumnsToContents()
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self.calibrationTable.cellDoubleClicked.connect(self.handle_update_calibration)
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self.calibrationTable.setEditTriggers(QTableWidget.EditTrigger.NoEditTriggers)
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def create_output_table(self) -> None:
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self.outGroup = QGroupBox("Output Peaks", self.tableTab)
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outLayout = QVBoxLayout()
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self.outputTable = QTableWidget(self.outGroup)
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self.outputTable.setColumnCount(12)
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self.outputTable.setHorizontalHeaderLabels(["Reaction","x(mm)","ux stat.(mm)","ux sys.(mm)","rho(cm)","urho(cm)","Ex(MeV)","uEx(MeV)","FWHM(mm)","uFWHM(mm)","FWHM(MeV)","uFWHM(MeV)"])
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self.outputTable.setColumnCount(13)
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self.outputTable.setHorizontalHeaderLabels(["Peak ID", "Reaction","x(mm)","ux stat.(mm)","ux sys.(mm)","rho(cm)","urho(cm)","Ex(MeV)","uEx(MeV)","FWHM(mm)","uFWHM(mm)","FWHM(MeV)","uFWHM(MeV)"])
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outLayout.addWidget(self.outputTable)
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self.outGroup.setLayout(outLayout)
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self.tablelayout.addWidget(self.outGroup)
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self.outputTable.resizeColumnsToContents()
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self.outputTable.cellDoubleClicked.connect(self.handle_update_output)
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self.outputTable.setEditTriggers(QTableWidget.EditTrigger.NoEditTriggers)
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def create_fit_result_text(self) -> None:
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self.fitTextGroup = QGroupBox("Fit Results", self.plotTab)
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@ -234,11 +238,15 @@ class SpancGUI(QMainWindow):
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return
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def handle_update_calibration(self, row: int, col: int) -> None:
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peakData = self.spanc.calibrations[row]
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peakID = int(self.calibrationTable.item(row, 0).text())
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peakData = self.spanc.calibrations[peakID]
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calDia = PeakDialog(PeakType.CALIBRATION, self.spanc.reactions.keys(), self, peak=peakData)
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calDia.new_peak.connect(self.spanc.add_calibration)
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calDia.delete_peak.connect(self.spanc.remove_calibration)
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if calDia.exec():
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self.update_calibration_table()
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if self.spanc.isFit == True:
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self.handle_run_fit()
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return
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def handle_new_output(self) -> None:
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@ -249,7 +257,8 @@ class SpancGUI(QMainWindow):
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return
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def handle_update_output(self, row: int, col: int) -> None:
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peakData = self.spanc.calibrations[row]
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peakID = int(self.calibrationTable.item(row, 0).text())
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peakData = self.spanc.outputs[peakID]
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outDia = PeakDialog(PeakType.OUTPUT, self.spanc.reactions.keys(), self, peak=peakData)
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outDia.new_peak.connect(self.spanc.add_output)
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if outDia.exec():
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@ -311,7 +320,7 @@ class SpancGUI(QMainWindow):
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self.reactionTable.setCellWidget(row, 1, QLabel(str(rxn)))
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self.reactionTable.setItem(row, 2, QTableWidgetItem(str(rxn.params.beamEnergy)))
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self.reactionTable.setItem(row, 3, QTableWidgetItem(str(rxn.params.magneticField)))
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self.reactionTable.setItem(row, 4, QTableWidgetItem(str(rxn.params.spsAngle)))
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self.reactionTable.setItem(row, 4, QTableWidgetItem(str(rxn.params.spsAngle / DEG2RAD)))
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self.reactionTable.resizeColumnsToContents()
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self.reactionTable.resizeRowsToContents()
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@ -319,14 +328,15 @@ class SpancGUI(QMainWindow):
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self.calibrationTable.setRowCount(len(self.spanc.calibrations))
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self.calibrationTable.setVerticalHeaderLabels(self.spanc.calibrations.keys())
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for row, peak in enumerate(self.spanc.calibrations.values()):
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self.calibrationTable.setItem(row, 0, QTableWidgetItem(peak.rxnName))
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self.calibrationTable.setItem(row, 1, QTableWidgetItem(str(peak.position)))
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self.calibrationTable.setItem(row, 2, QTableWidgetItem(str(peak.positionErrStat)))
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self.calibrationTable.setItem(row, 3, QTableWidgetItem(str(peak.positionErrSys)))
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self.calibrationTable.setItem(row, 4, QTableWidgetItem(str(peak.rho)))
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self.calibrationTable.setItem(row, 5, QTableWidgetItem(str(peak.rhoErr)))
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self.calibrationTable.setItem(row, 6, QTableWidgetItem(str(peak.excitation)))
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self.calibrationTable.setItem(row, 7, QTableWidgetItem(str(peak.excitationErr)))
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self.calibrationTable.setItem(row, 0, QTableWidgetItem(str(peak.peakID)))
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self.calibrationTable.setItem(row, 1, QTableWidgetItem(peak.rxnName))
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self.calibrationTable.setItem(row, 2, QTableWidgetItem(str(peak.position)))
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self.calibrationTable.setItem(row, 3, QTableWidgetItem(str(peak.positionErrStat)))
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self.calibrationTable.setItem(row, 4, QTableWidgetItem(str(peak.positionErrSys)))
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self.calibrationTable.setItem(row, 5, QTableWidgetItem(str(peak.rho)))
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self.calibrationTable.setItem(row, 6, QTableWidgetItem(str(peak.rhoErr)))
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self.calibrationTable.setItem(row, 7, QTableWidgetItem(str(peak.excitation)))
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self.calibrationTable.setItem(row, 8, QTableWidgetItem(str(peak.excitationErr)))
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self.calibrationTable.resizeColumnsToContents()
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self.calibrationTable.resizeRowsToContents()
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@ -334,18 +344,19 @@ class SpancGUI(QMainWindow):
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self.outputTable.setRowCount(len(self.spanc.outputs))
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self.outputTable.setVerticalHeaderLabels(self.spanc.outputs.keys())
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for row, peak in enumerate(self.spanc.outputs.values()):
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self.outputTable.setItem(row, 0, QTableWidgetItem(peak.rxnName))
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self.outputTable.setItem(row, 1, QTableWidgetItem(str(peak.position)))
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self.outputTable.setItem(row, 2, QTableWidgetItem(str(peak.positionErrStat)))
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self.outputTable.setItem(row, 3, QTableWidgetItem(str(peak.positionErrSys)))
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self.outputTable.setItem(row, 4, QTableWidgetItem(str(peak.rho)))
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self.outputTable.setItem(row, 5, QTableWidgetItem(str(peak.rhoErr)))
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self.outputTable.setItem(row, 6, QTableWidgetItem(str(peak.excitation)))
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self.outputTable.setItem(row, 7, QTableWidgetItem(str(peak.excitationErr)))
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self.outputTable.setItem(row, 8, QTableWidgetItem(str(peak.positionFWHM)))
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self.outputTable.setItem(row, 9, QTableWidgetItem(str(peak.positionFWHMErr)))
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self.outputTable.setItem(row, 10, QTableWidgetItem(str(peak.excitationFWHM)))
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self.outputTable.setItem(row, 11, QTableWidgetItem(str(peak.excitationFWHMErr)))
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self.outputTable.setItem(row, 0, QTableWidgetItem(str(peak.peakID)))
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self.outputTable.setItem(row, 1, QTableWidgetItem(peak.rxnName))
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self.outputTable.setItem(row, 2, QTableWidgetItem(str(peak.position)))
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self.outputTable.setItem(row, 3, QTableWidgetItem(str(peak.positionErrStat)))
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self.outputTable.setItem(row, 4, QTableWidgetItem(str(peak.positionErrSys)))
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self.outputTable.setItem(row, 5, QTableWidgetItem(str(peak.rho)))
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self.outputTable.setItem(row, 6, QTableWidgetItem(str(peak.rhoErr)))
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self.outputTable.setItem(row, 7, QTableWidgetItem(str(peak.excitation)))
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self.outputTable.setItem(row, 8, QTableWidgetItem(str(peak.excitationErr)))
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self.outputTable.setItem(row, 9, QTableWidgetItem(str(peak.positionFWHM)))
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self.outputTable.setItem(row, 10, QTableWidgetItem(str(peak.positionFWHMErr)))
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self.outputTable.setItem(row, 11, QTableWidgetItem(str(peak.excitationFWHM)))
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self.outputTable.setItem(row, 12, QTableWidgetItem(str(peak.excitationFWHMErr)))
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self.outputTable.resizeColumnsToContents()
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self.outputTable.resizeRowsToContents()
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@ -53,7 +53,7 @@ def get_excitations(Z: int, A: int) -> list[float]:
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levels = []
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text = ''
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symbol = global_nuclear_data.get_data(Z, A).isotopicSymbol
|
||||
site = req.get(f"https://www.nndc.bnl.gov/nudat2/getdatasetClassic.jsp?nucleus={symbol}&unc=nds")
|
||||
site = req.get(f"https://www.nndc.bnl.gov/nudat3/getdatasetClassic.jsp?nucleus={symbol}&unc=nds")
|
||||
contents = xhtml.fromstring(site.content)
|
||||
tables = contents.xpath("//table")
|
||||
rows = tables[2].xpath("./tr")
|
||||
|
|
|
@ -2,11 +2,12 @@ from ..Spanc import Peak, PeakType, INVALID_PEAK_ID
|
|||
from PySide6.QtWidgets import QLabel
|
||||
from PySide6.QtWidgets import QVBoxLayout, QFormLayout, QGroupBox
|
||||
from PySide6.QtWidgets import QComboBox, QDoubleSpinBox
|
||||
from PySide6.QtWidgets import QDialog, QDialogButtonBox
|
||||
from PySide6.QtWidgets import QDialog, QDialogButtonBox, QPushButton
|
||||
from PySide6.QtCore import Signal
|
||||
|
||||
class PeakDialog(QDialog):
|
||||
new_peak = Signal(Peak)
|
||||
delete_peak = Signal(Peak)
|
||||
|
||||
def __init__(self, peakType: PeakType, rxnList: list[str], parent=None, peak: Peak=None):
|
||||
super().__init__(parent)
|
||||
|
@ -26,14 +27,19 @@ class PeakDialog(QDialog):
|
|||
if peakType == PeakType.CALIBRATION:
|
||||
self.create_calibration_inputs()
|
||||
if peak is not None:
|
||||
self.setWindowTitle(f"Update A {peakType.value} Peak")
|
||||
self.set_calibration_inputs(peak)
|
||||
self.peakID = peak.peakID
|
||||
self.buttonBox.accepted.connect(self.send_update_calibration_peak)
|
||||
self.deleteButton = QPushButton("Delete", self)
|
||||
self.deleteButton.clicked.connect(self.send_delete_calibration_peak)
|
||||
self.centralLayout.addWidget(self.deleteButton)
|
||||
else:
|
||||
self.buttonBox.accepted.connect(self.send_calibration_peak)
|
||||
elif peakType == PeakType.OUTPUT:
|
||||
self.create_output_inputs()
|
||||
if peak is not None:
|
||||
self.setWindowTitle(f"Update A {peakType.value} Peak")
|
||||
self.set_output_inputs(peak)
|
||||
self.peakID = peak.peakID
|
||||
self.buttonBox.accepted.connect(self.send_update_output_peak)
|
||||
|
@ -58,8 +64,8 @@ class PeakDialog(QDialog):
|
|||
self.uexInput = QDoubleSpinBox(self.inputGroupBox)
|
||||
self.uexInput.setDecimals(6)
|
||||
inputLayout.addRow("Position(mm)", self.xInput)
|
||||
inputLayout.addRow("Position Stat. Error(mm)", self.uxstatInput)
|
||||
inputLayout.addRow("Position Sys. Error(mm)", self.uxsysInput)
|
||||
inputLayout.addRow("Position Stat. Error(mm)", self.uxstatInput)
|
||||
inputLayout.addRow("Excitation Energy(MeV)", self.exInput)
|
||||
inputLayout.addRow("Excitation Energy Error(MeV)", self.uexInput)
|
||||
self.inputGroupBox.setLayout(inputLayout)
|
||||
|
@ -82,8 +88,8 @@ class PeakDialog(QDialog):
|
|||
self.ufwhmInput = QDoubleSpinBox(self.inputGroupBox)
|
||||
self.ufwhmInput.setDecimals(6)
|
||||
inputLayout.addRow("Position(mm)", self.xInput)
|
||||
inputLayout.addRow("Position Stat. Error(mm)", self.uxstatInput)
|
||||
inputLayout.addRow("Position Sys. Error(mm)", self.uxsysInput)
|
||||
inputLayout.addRow("Position Stat. Error(mm)", self.uxstatInput)
|
||||
inputLayout.addRow("Position FWHM(mm)", self.fwhmInput)
|
||||
inputLayout.addRow("Position FWHM Error(mm)", self.ufwhmInput)
|
||||
self.inputGroupBox.setLayout(inputLayout)
|
||||
|
@ -114,6 +120,12 @@ class PeakDialog(QDialog):
|
|||
peak = Peak(excitation=self.exInput.value(), excitationErr=self.uexInput.value(), position=self.xInput.value(),
|
||||
positionErrStat=self.uxstatInput.value(), positionErrSys=self.uxsysInput.value(), rxnName=self.rxnNameBox.currentText(), peakID=self.peakID)
|
||||
self.new_peak.emit(peak)
|
||||
|
||||
def send_delete_calibration_peak(self) -> None:
|
||||
peak = Peak(excitation=self.exInput.value(), excitationErr=self.uexInput.value(), position=self.xInput.value(),
|
||||
positionErrStat=self.uxstatInput.value(), positionErrSys=self.uxsysInput.value(), rxnName=self.rxnNameBox.currentText(), peakID=self.peakID)
|
||||
self.delete_peak.emit(peak)
|
||||
self.done(3)
|
||||
|
||||
def send_output_peak(self) -> None:
|
||||
peak = Peak(position=self.xInput.value(), positionErrStat=self.uxstatInput.value(), positionErrSys=self.uxsysInput.value(),
|
||||
|
|
|
@ -5,6 +5,7 @@ from PySide6.QtWidgets import QVBoxLayout, QFormLayout, QGroupBox
|
|||
from PySide6.QtWidgets import QSpinBox, QDoubleSpinBox, QComboBox
|
||||
from PySide6.QtWidgets import QDialog, QDialogButtonBox
|
||||
from PySide6.QtCore import Signal
|
||||
from numpy import rad2deg
|
||||
|
||||
MAXIMUM_NUCLEAR_Z: int = 110
|
||||
MAXIMUM_NUCLEAR_A: int = 270
|
||||
|
@ -116,6 +117,6 @@ class ReactionDialog(QDialog):
|
|||
self.aeInput.setValue(rxn.params.ejectile.A)
|
||||
self.aeInput.setEnabled(False)
|
||||
self.bkeInput.setValue(rxn.params.beamEnergy)
|
||||
self.thetaInput.setValue(rxn.params.spsAngle)
|
||||
self.thetaInput.setValue(rad2deg(rxn.params.spsAngle))
|
||||
self.bfieldInput.setValue(rxn.params.magneticField)
|
||||
|
Loading…
Reference in New Issue
Block a user