def setup_sequence_parameters(self): op = self.parameters.OpticalPumping optical_pumping_frequency = cm.frequency_from_line_selection( op.frequency_selection, op.manual_frequency_729, op.line_selection, self.drift_tracker, op.optical_pumping_enable) self.parameters[ 'OpticalPumping.optical_pumping_frequency_729'] = optical_pumping_frequency aux = self.parameters.OpticalPumpingAux aux_optical_pumping_frequency = cm.frequency_from_line_selection( 'auto', WithUnit(0, 'MHz'), aux.aux_op_line_selection, self.drift_tracker, aux.aux_op_enable) self.parameters[ 'OpticalPumpingAux.aux_optical_frequency_729'] = aux_optical_pumping_frequency sc = self.parameters.SidebandCooling sideband_cooling_frequency = cm.frequency_from_line_selection( sc.frequency_selection, sc.manual_frequency_729, sc.line_selection, self.drift_tracker, sc.sideband_cooling_enable) #import IPython #IPython.embed() if sc.frequency_selection == 'auto': trap = self.parameters.TrapFrequencies sideband_cooling_frequency = cm.add_sidebands( sideband_cooling_frequency, sc.sideband_selection, trap) self.parameters[ 'SidebandCooling.sideband_cooling_frequency_729'] = sideband_cooling_frequency
def setup_sequence_parameters(self): p = self.parameters.Dephasing_Pulses trap = self.parameters.TrapFrequencies prep_line_frequency = cm.frequency_from_line_selection( 'auto', None, p.preparation_line_selection, self.drift_tracker) frequency_preparation = cm.add_sidebands( prep_line_frequency, p.preparation_sideband_selection, trap) #if same line is selected, match the frequency exactly same_line = p.preparation_line_selection == p.evolution_line_selection same_sideband = p.preparation_sideband_selection.aslist == p.evolution_sideband_selection.aslist print 'same line', same_line print 'same sideband', same_sideband if same_line and same_sideband: frequency_evolution = frequency_preparation else: evo_line_frequency = cm.frequency_from_line_selection( 'auto', None, p.evolution_line_selection, self.drift_tracker) frequency_evolution = cm.add_sidebands( evo_line_frequency, p.evolution_sideband_selection, trap) self.parameters[ 'Dephasing_Pulses.preparation_pulse_frequency'] = frequency_preparation self.parameters[ 'Dephasing_Pulses.evolution_pulses_frequency'] = frequency_evolution self.max_second_pulse = p.evolution_pulses_duration minim, maxim, steps = self.parameters.Dephasing_Pulses.scan_interaction_duration minim = minim['us'] maxim = maxim['us'] self.scan = linspace(minim, maxim, steps) self.scan = [WithUnit(pt, 'us') for pt in self.scan]
def setup_sequence_parameters(self): p = self.parameters.Dephasing_Pulses trap = self.parameters.TrapFrequencies prep_line_frequency = cm.frequency_from_line_selection( 'auto', None, p.preparation_line_selection, self.drift_tracker) frequency_preparation = cm.add_sidebands( prep_line_frequency, p.preparation_sideband_selection, trap) #if same line is selected, match the frequency exactly same_line = p.preparation_line_selection == p.evolution_line_selection same_sideband = p.preparation_sideband_selection.aslist == p.evolution_sideband_selection.aslist print 'same line', same_line print 'same sideband', same_sideband if same_line and same_sideband: frequency_evolution = frequency_preparation else: evo_line_frequency = cm.frequency_from_line_selection( 'auto', None, p.evolution_line_selection, self.drift_tracker) frequency_evolution = cm.add_sidebands( evo_line_frequency, p.evolution_sideband_selection, trap) frequency_evolution = frequency_evolution + radial_freq_offset #Ahmed print 'Displaced Sideband:', frequency_evolution #Ahmed self.parameters[ 'Dephasing_Pulses.preparation_pulse_frequency'] = frequency_preparation self.parameters[ 'Dephasing_Pulses.evolution_pulses_frequency'] = frequency_evolution self.max_second_pulse = p.evolution_pulses_duration
def setup_sequence_parameters(self): op = self.parameters.OpticalPumping optical_pumping_frequency = cm.frequency_from_line_selection(op.frequency_selection, op.manual_frequency_729, op.line_selection, self.drift_tracker) self.parameters['OpticalPumping.optical_pumping_frequency_729'] = optical_pumping_frequency sc = self.parameters.SidebandCooling sideband_cooling_frequency = cm.frequency_from_line_selection(sc.frequency_selection, sc.manual_frequency_729, sc.line_selection, self.drift_tracker) if sc.frequency_selection == 'auto': trap = self.parameters.TrapFrequencies sideband_cooling_frequency = cm.add_sidebands(sideband_cooling_frequency, sc.sideband_selection, trap) self.parameters['SidebandCooling.sideband_cooling_frequency_729'] = sideband_cooling_frequency
def setup_sequence_parameters(self): op = self.parameters.OpticalPumping optical_pumping_frequency = cm.frequency_from_line_selection(op.frequency_selection, op.manual_frequency_729, op.line_selection, self.drift_tracker) self.parameters['OpticalPumping.optical_pumping_frequency_729'] = optical_pumping_frequency sc = self.parameters.SidebandCooling sideband_cooling_frequency = cm.frequency_from_line_selection(sc.frequency_selection, sc.manual_frequency_729, sc.line_selection, self.drift_tracker) if sc.frequency_selection == 'auto': trap = self.parameters.TrapFrequencies sideband_cooling_frequency = cm.add_sidebands(sideband_cooling_frequency, sc.sideband_selection, trap) self.parameters['SidebandCooling.sideband_cooling_frequency_729'] = sideband_cooling_frequency
def setup_sequence_parameters(self): flop = self.parameters.RabiFlopping frequency = cm.frequency_from_line_selection(flop.frequency_selection, flop.manual_frequency_729, flop.line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.frequency_selection == 'auto': frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) self.parameters['Excitation_729.rabi_excitation_frequency'] = frequency self.parameters['Excitation_729.rabi_excitation_amplitude'] = flop.rabi_amplitude_729 tom = self.parameters.Tomography frequency = cm.frequency_from_line_selection('auto', None, tom.line_selection, self.drift_tracker) self.parameters['Tomography.tomography_excitation_frequency'] = frequency
def setup_sequence_parameters(self): flop = self.parameters.RabiFlopping frequency = cm.frequency_from_line_selection(flop.frequency_selection, flop.manual_frequency_729, flop.line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.frequency_selection == 'auto': frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) self.parameters['Excitation_729.rabi_excitation_frequency'] = frequency self.parameters['Excitation_729.rabi_excitation_amplitude'] = flop.rabi_amplitude_729 tom = self.parameters.Tomography frequency = cm.frequency_from_line_selection('auto', None, tom.line_selection, self.drift_tracker) self.parameters['Tomography.tomography_excitation_frequency'] = frequency
def load_frequency(self): #reloads trap frequencyies and gets the latest information from the drift tracker self.reload_some_parameters(self.trap_frequencies) flop = self.parameters.RabiFlopping_2ions frequency1 = cm.frequency_from_line_selection(flop.ion1_frequency_selection, flop.ion1_manual_frequency_729, flop.ion1_line_selection, self.drift_tracker) frequency2 = cm.frequency_from_line_selection(flop.ion2_frequency_selection, flop.ion2_manual_frequency_729, flop.ion2_line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.ion1_frequency_selection == 'auto': frequency1 = cm.add_sidebands(frequency1, flop.ion1_sideband_selection, trap) if flop.ion2_frequency_selection == 'auto': frequency2 = cm.add_sidebands(frequency2, flop.ion2_sideband_selection, trap) self.parameters['Rabi_excitation_729_2ions.ion1_excitation_frequency'] = frequency1 self.parameters['Rabi_excitation_729_2ions.ion2_excitation_frequency'] = frequency2
def setup_sequence_parameters(self): sp = self.parameters.Spectrum if sp.scan_selection == 'manual': minim, maxim, steps = sp.manual_scan duration = sp.manual_excitation_time amplitude = sp.manual_amplitude_729 elif sp.scan_selection == 'auto': center_frequency = cm.frequency_from_line_selection( sp.scan_selection, None, sp.line_selection, self.drift_tracker) center_frequency = cm.add_sidebands( center_frequency, sp.sideband_selection, self.parameters.TrapFrequencies) span, resolution, duration, amplitude = sp[ sp.sensitivity_selection] minim = center_frequency - span / 2.0 maxim = center_frequency + span / 2.0 steps = int(span / resolution) else: raise Exception("Incorrect Spectrum Scan Type") #making the scan self.parameters['Excitation_729.rabi_excitation_duration'] = duration self.parameters['Excitation_729.rabi_excitation_amplitude'] = amplitude minim = minim['MHz'] maxim = maxim['MHz'] self.scan = np.linspace(minim, maxim, steps) self.scan = [WithUnit(pt, 'MHz') for pt in self.scan]
def run(self, cxn, context): self.setup_data_vault() dt = self.parameters.DriftTrackerRamsey excitations = [] frequency = cm.frequency_from_line_selection('auto', None , dt.line_selection, self.drift_tracker) frequency = frequency + dt.detuning for iter,phase in enumerate(self.phases): replace = TreeDict.fromdict({ 'Ramsey.rabi_pi_time':dt.pi_time, 'Ramsey.ramsey_time':dt.gap_time, 'Ramsey.second_pulse_phase':phase, 'Excitation_729.rabi_excitation_amplitude':dt.amplitude, 'Excitation_729.rabi_excitation_frequency':frequency, 'Tomography.iteration':0.0, 'StateReadout.repeat_each_measurement':dt.readouts, 'SidebandCooling.sideband_cooling_enable':False, 'OpticalPumping.optical_pumping_enable':True, }) self.excitation.set_parameters(replace) self.update_progress(iter) if not self.parameters.StateReadout.use_camera_for_readout: #using PMT excitation = self.excitation.run(cxn, context)[0] else: primary_ion = int(self.parameters.StateReadout.camera_primary_ion) excitation = self.excitation.run(cxn, context)[primary_ion] excitations.append(excitation) detuning, average_excitation = self.calculate_detuning(excitations) corrected_frequency = frequency + detuning # print corrected_frequency, average_excitation return corrected_frequency,average_excitation
def setup_sequence_parameters(self): flop = self.parameters.RabiFlopping frequency = cm.frequency_from_line_selection(flop.frequency_selection, flop.manual_frequency_729, flop.line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.frequency_selection == 'auto': frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) self.parameters['Excitation_729.rabi_excitation_frequency'] = frequency self.parameters[ 'Excitation_729.rabi_excitation_amplitude'] = flop.rabi_amplitude_729 #import IPython #IPython.embed() #self.parameters['Ramsey.first_pulse_duration'] = self.parameters.Ramsey.rabi_pi_time / 2.0 #self.parameters['Ramsey.second_pulse_duration'] = self.parameters.Ramsey.rabi_pi_time / 2.0 minim, maxim, steps = self.parameters.RamseyScanPhase.scanphase minim = minim['deg'] maxim = maxim['deg'] self.scan = linspace(minim, maxim, steps) self.scan = [WithUnit(pt, 'deg') for pt in self.scan]
def load_frequency(self): #reloads trap frequencyies and gets the latest information from the drift tracker self.reload_some_parameters(self.trap_frequencies) flop = self.parameters.RabiFlopping frequency = cm.frequency_from_line_selection(flop.frequency_selection, flop.manual_frequency_729, flop.line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.frequency_selection == 'auto': frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) self.parameters['Excitation_729.rabi_excitation_frequency'] = frequency
def load_frequency(self): #reloads trap frequencyies and gets the latest information from the drift tracker self.reload_some_parameters(self.trap_frequencies) flop = self.parameters.RabiFlopping frequency = cm.frequency_from_line_selection(flop.frequency_selection, flop.manual_frequency_729, flop.line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.frequency_selection == 'auto': frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) self.parameters['Excitation_729.rabi_excitation_frequency'] = frequency
def setup_sequence_parameters(self): flop = self.parameters.RabiFlopping frequency = cm.frequency_from_line_selection(flop.frequency_selection, flop.manual_frequency_729, flop.line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.frequency_selection == 'auto': frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) self.parameters['Excitation_729.rabi_excitation_frequency'] = frequency self.parameters['Excitation_729.rabi_excitation_amplitude'] = flop.rabi_amplitude_729 minim,maxim,steps = self.parameters.RamseyDephase.scan_dephase_duration minim = minim['us']; maxim = maxim['us'] self.scan = linspace(minim,maxim, steps) self.scan = [WithUnit(pt, 'us') for pt in self.scan]
def setup_sequence_parameters(self): flop = self.parameters.RabiFlopping frequency = cm.frequency_from_line_selection(flop.frequency_selection, flop.manual_frequency_729, flop.line_selection, self.drift_tracker) trap = self.parameters.TrapFrequencies if flop.frequency_selection == 'auto': frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) self.parameters['Excitation_729.rabi_excitation_frequency'] = frequency self.parameters['Excitation_729.rabi_excitation_amplitude'] = flop.rabi_amplitude_729 minim,maxim,steps = self.parameters.RamseyScanPhase.scanphase minim = minim['deg']; maxim = maxim['deg'] self.scan = linspace(minim,maxim, steps) self.scan = [WithUnit(pt, 'deg') for pt in self.scan]
def setup_sequence_parameters(self): flop = self.parameters.Ramsey2ions_ScanGapParity ion1_frequency1 = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), flop.ion1_pi_over_2_line_selection, self.drift_tracker) ion1_frequency2 = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), flop.ion1_pi_line_selection, self.drift_tracker) ion2_frequency1 = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), flop.ion2_pi_over_2_line_selection, self.drift_tracker) ion2_frequency2 = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), flop.ion2_pi_line_selection, self.drift_tracker) #trap = self.parameters.TrapFrequencies #if flop.frequency_selection == 'auto': # frequency = cm.add_sidebands(frequency, flop.sideband_selection, trap) #frequency += self.parameters.RamseyScanGap.detuning print ion1_frequency1 self.parameters['Ramsey_2ions.ion1_excitation_frequency1'] = ion1_frequency1 self.parameters['Ramsey_2ions.ion1_excitation_frequency2'] = ion1_frequency2 self.parameters['Ramsey_2ions.ion2_excitation_frequency1'] = ion2_frequency1 self.parameters['Ramsey_2ions.ion2_excitation_frequency2'] = ion2_frequency2 #self.parameters['Excitation_729.rabi_excitation_amplitude'] = flop.rabi_amplitude_729 #self.parameters['Ramsey.first_pulse_duration'] = self.parameters.Ramsey.rabi_pi_time / 2.0 #self.parameters['Ramsey.second_pulse_duration'] = self.parameters.Ramsey.rabi_pi_time / 2.0 minim,maxim,steps = self.parameters.Ramsey2ions_ScanGapParity.scangap minim = minim['us']; maxim = maxim['us'] self.scan = linspace(minim,maxim, steps) self.scan = [WithUnit(pt, 'us') for pt in self.scan]
def setup_sequence_parameters(self): sp = self.parameters.Sideband_tracker center_frequency = cm.frequency_from_line_selection('auto', None , sp.line_selection, self.drift_tracker) self.carrier_frequency = center_frequency center_frequency = cm.add_sidebands(center_frequency, sp.sideband_selection, self.parameters.TrapFrequencies) span, resolution, duration, amplitude = sp['sensitivity'] minim = center_frequency - span / 2.0 maxim = center_frequency + span / 2.0 steps = int(span / resolution ) self.parameters['Excitation_729.rabi_excitation_duration'] = duration self.parameters['Excitation_729.rabi_excitation_amplitude'] = amplitude minim = minim['MHz']; maxim = maxim['MHz'] self.scan = np.linspace(minim,maxim, steps) self.scan = [WithUnit(pt, 'MHz') for pt in self.scan]
def setup_sequence_parameters(self): op = self.parameters.OpticalPumping print self.parameters.makeReport(add_path=True) print 'blah blah blah' print op.frequency_selection # print 'next is the selection' #print op.frequency_selection #print op #print 'blah blah blah' optical_pumping_frequency = cm.frequency_from_line_selection( op.frequency_selection, op.manual_frequency_729, op.line_selection, self.drift_tracker) self.parameters[ 'OpticalPumping.optical_pumping_frequency_729'] = optical_pumping_frequency sc = self.parameters.SidebandCooling sideband_cooling_frequency = cm.frequency_from_line_selection( sc.frequency_selection, sc.manual_frequency_729, sc.line_selection, self.drift_tracker) if sc.frequency_selection == 'auto': trap = self.parameters.TrapFrequencies sideband_cooling_frequency = cm.add_sidebands( sideband_cooling_frequency, sc.sideband_selection, trap) self.parameters[ 'SidebandCooling.sideband_cooling_frequency_729'] = sideband_cooling_frequency
def setup_sequence_parameters(self): if self.parameters.Parity_LLI.mirror_state == True: self.parameters['Ramsey_2ions.ion1_excitation_frequency1'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S-1/2D-1/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion1_excitation_frequency2'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S-1/2D-5/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion2_excitation_frequency1'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S+1/2D+1/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion2_excitation_frequency2'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S+1/2D+5/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion1_excitation_amplitude1'] = self.parameters['Parity_transitions.left_ionSm12Dm12_power'] self.parameters['Ramsey_2ions.ion1_excitation_amplitude2'] = self.parameters['Parity_transitions.left_ionSm12Dm52_power'] self.parameters['Ramsey_2ions.ion2_excitation_amplitude1'] = self.parameters['Parity_transitions.right_ionSp12Dp12_power'] self.parameters['Ramsey_2ions.ion2_excitation_amplitude2'] = self.parameters['Parity_transitions.right_ionSp12Dp52_power'] self.parameters['Ramsey_2ions.ion1_excitation_duration1'] = self.parameters['Parity_transitions.left_ionSm12Dm12_pi_time']/2.0 self.parameters['Ramsey_2ions.ion1_excitation_duration2'] = self.parameters['Parity_transitions.left_ionSm12Dm52_pi_time'] self.parameters['Ramsey_2ions.ion2_excitation_duration1'] = self.parameters['Parity_transitions.right_ionSp12Dp12_pi_time']/2.0 self.parameters['Ramsey_2ions.ion2_excitation_duration2'] = self.parameters['Parity_transitions.right_ionSp12Dp52_pi_time'] self.parameters['OpticalPumping.line_selection'] = 'S+1/2D-3/2' self.parameters['OpticalPumpingAux.aux_op_line_selection'] = 'S-1/2D+3/2' else: self.parameters['Ramsey_2ions.ion1_excitation_frequency1'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S+1/2D+1/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion1_excitation_frequency2'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S+1/2D+5/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion2_excitation_frequency1'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S-1/2D-1/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion2_excitation_frequency2'] = cm.frequency_from_line_selection('auto', WithUnit(0.00, 'MHz'), 'S-1/2D-5/2', self.drift_tracker) self.parameters['Ramsey_2ions.ion1_excitation_amplitude1'] = self.parameters['Parity_transitions.left_ionSp12Dp12_power'] self.parameters['Ramsey_2ions.ion1_excitation_amplitude2'] = self.parameters['Parity_transitions.left_ionSp12Dp52_power'] self.parameters['Ramsey_2ions.ion2_excitation_amplitude1'] = self.parameters['Parity_transitions.right_ionSm12Dm12_power'] self.parameters['Ramsey_2ions.ion2_excitation_amplitude2'] = self.parameters['Parity_transitions.right_ionSm12Dm52_power'] self.parameters['Ramsey_2ions.ion1_excitation_duration1'] = self.parameters['Parity_transitions.left_ionSp12Dp12_pi_time']/2.0 self.parameters['Ramsey_2ions.ion1_excitation_duration2'] = self.parameters['Parity_transitions.left_ionSp12Dp52_pi_time'] self.parameters['Ramsey_2ions.ion2_excitation_duration1'] = self.parameters['Parity_transitions.right_ionSm12Dm12_pi_time']/2.0 self.parameters['Ramsey_2ions.ion2_excitation_duration2'] = self.parameters['Parity_transitions.right_ionSm12Dm52_pi_time'] self.parameters['OpticalPumping.line_selection'] = 'S-1/2D+3/2' self.parameters['OpticalPumpingAux.aux_op_line_selection'] = 'S+1/2D-3/2' self.parameters['Ramsey_2ions.ramsey_time'] = self.parameters['Parity_LLI.ramsey_time'] minim,maxim,steps = self.parameters.Parity_LLI.scanphase minim = minim['deg']; maxim = maxim['deg'] self.scan = linspace(minim,maxim, steps) self.scan = [WithUnit(pt, 'deg') for pt in self.scan]
def setup_sequence_parameters(self): sp = self.parameters.Spectrum if sp.scan_selection == 'manual': minim,maxim,steps = sp.manual_scan duration = sp.manual_excitation_time amplitude = sp.manual_amplitude_729 elif sp.scan_selection == 'auto': center_frequency = cm.frequency_from_line_selection(sp.scan_selection, None , sp.line_selection, self.drift_tracker) center_frequency = cm.add_sidebands(center_frequency, sp.sideband_selection, self.parameters.TrapFrequencies) span, resolution, duration, amplitude = sp[sp.sensitivity_selection] minim = center_frequency - span / 2.0 maxim = center_frequency + span / 2.0 steps = int(span / resolution ) else: raise Exception("Incorrect Spectrum Scan Type") #making the scan self.parameters['Excitation_729.rabi_excitation_duration'] = duration self.parameters['Excitation_729.rabi_excitation_amplitude'] = amplitude minim = minim['MHz']; maxim = maxim['MHz'] self.scan = np.linspace(minim,maxim, steps) self.scan = [WithUnit(pt, 'MHz') for pt in self.scan]
def setup_sequence_parameters(self, phase_plus_pi): ### reload the phase ### self.reload_some_parameters([ ('Parity_LLI', 'phase_mirror_state'), ('Parity_LLI', 'phase_mirror_state_short_time'), ('Parity_LLI', 'phase_no_mirror_state_short_time'), ('Parity_LLI', 'phase_no_mirror_state'), ]) if self.parameters.Parity_LLI.mirror_state == True: self.parameters[ 'Ramsey_2ions.ion1_excitation_frequency1'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S-1/2D-1/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion1_excitation_frequency2'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S-1/2D-5/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion2_excitation_frequency1'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S+1/2D+1/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion2_excitation_frequency2'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S+1/2D+5/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion1_excitation_amplitude1'] = self.parameters[ 'Parity_transitions.left_ionSm12Dm12_power'] self.parameters[ 'Ramsey_2ions.ion1_excitation_amplitude2'] = self.parameters[ 'Parity_transitions.left_ionSm12Dm52_power'] self.parameters[ 'Ramsey_2ions.ion2_excitation_amplitude1'] = self.parameters[ 'Parity_transitions.right_ionSp12Dp12_power'] self.parameters[ 'Ramsey_2ions.ion2_excitation_amplitude2'] = self.parameters[ 'Parity_transitions.right_ionSp12Dp52_power'] self.parameters[ 'Ramsey_2ions.ion1_excitation_duration1'] = self.parameters[ 'Parity_transitions.left_ionSm12Dm12_pi_time'] / 2.0 self.parameters[ 'Ramsey_2ions.ion1_excitation_duration2'] = self.parameters[ 'Parity_transitions.left_ionSm12Dm52_pi_time'] self.parameters[ 'Ramsey_2ions.ion2_excitation_duration1'] = self.parameters[ 'Parity_transitions.right_ionSp12Dp12_pi_time'] / 2.0 self.parameters[ 'Ramsey_2ions.ion2_excitation_duration2'] = self.parameters[ 'Parity_transitions.right_ionSp12Dp52_pi_time'] self.parameters['OpticalPumping.line_selection'] = 'S+1/2D-3/2' self.parameters[ 'OpticalPumpingAux.aux_op_line_selection'] = 'S-1/2D+3/2' if self.parameters.Parity_LLI.use_short_ramsey_time: self.parameters['Ramsey_2ions.ramsey_time'] = self.parameters[ 'Parity_LLI.short_ramsey_time'] if phase_plus_pi: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_mirror_state_short_time'] + WithUnit( 180.0, 'deg') else: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_mirror_state_short_time'] else: self.parameters['Ramsey_2ions.ramsey_time'] = self.parameters[ 'Parity_LLI.long_ramsey_time'] if phase_plus_pi: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_mirror_state'] + WithUnit( 180.0, 'deg') else: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_mirror_state'] else: self.parameters[ 'Ramsey_2ions.ion1_excitation_frequency1'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S+1/2D+1/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion1_excitation_frequency2'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S+1/2D+5/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion2_excitation_frequency1'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S-1/2D-1/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion2_excitation_frequency2'] = cm.frequency_from_line_selection( 'auto', WithUnit(0.00, 'MHz'), 'S-1/2D-5/2', self.drift_tracker) self.parameters[ 'Ramsey_2ions.ion1_excitation_amplitude1'] = self.parameters[ 'Parity_transitions.left_ionSp12Dp12_power'] self.parameters[ 'Ramsey_2ions.ion1_excitation_amplitude2'] = self.parameters[ 'Parity_transitions.left_ionSp12Dp52_power'] self.parameters[ 'Ramsey_2ions.ion2_excitation_amplitude1'] = self.parameters[ 'Parity_transitions.right_ionSm12Dm12_power'] self.parameters[ 'Ramsey_2ions.ion2_excitation_amplitude2'] = self.parameters[ 'Parity_transitions.right_ionSm12Dm52_power'] self.parameters[ 'Ramsey_2ions.ion1_excitation_duration1'] = self.parameters[ 'Parity_transitions.left_ionSp12Dp12_pi_time'] / 2.0 self.parameters[ 'Ramsey_2ions.ion1_excitation_duration2'] = self.parameters[ 'Parity_transitions.left_ionSp12Dp52_pi_time'] self.parameters[ 'Ramsey_2ions.ion2_excitation_duration1'] = self.parameters[ 'Parity_transitions.right_ionSm12Dm12_pi_time'] / 2.0 self.parameters[ 'Ramsey_2ions.ion2_excitation_duration2'] = self.parameters[ 'Parity_transitions.right_ionSm12Dm52_pi_time'] self.parameters['OpticalPumping.line_selection'] = 'S-1/2D+3/2' self.parameters[ 'OpticalPumpingAux.aux_op_line_selection'] = 'S+1/2D-3/2' if self.parameters.Parity_LLI.use_short_ramsey_time: self.parameters['Ramsey_2ions.ramsey_time'] = self.parameters[ 'Parity_LLI.short_ramsey_time'] if phase_plus_pi: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_no_mirror_state_short_time'] + WithUnit( 180.0, 'deg') else: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_no_mirror_state_short_time'] else: self.parameters['Ramsey_2ions.ramsey_time'] = self.parameters[ 'Parity_LLI.long_ramsey_time'] if phase_plus_pi: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_no_mirror_state'] + WithUnit( 180.0, 'deg') else: self.parameters[ 'Ramsey_2ions.ion2_excitation_phase1'] = self.parameters[ 'Parity_LLI.phase_no_mirror_state']