def prepare(m):
funcs.prepare(m)
m.CORPSE_pi = pulselib.IQ_CORPSE_pi_pulse(
'CORPSE pi-pulse',
I_channel='MW_Imod',
Q_channel='MW_Qmod',
PM_channel='MW_pulsemod',
PM_risetime=m.params['MW_pulse_mod_risetime'],
frequency=m.params['CORPSE_pi_mod_frq'],
amplitude=m.params['CORPSE_pi_amp'],
length_60=m.params['CORPSE_pi_60_duration'],
length_m300=m.params['CORPSE_pi_m300_duration'],
length_420=m.params['CORPSE_pi_420_duration'])
m.CORPSE_pi2 = pulselib.IQ_CORPSE_pi2_pulse(
'CORPSE pi2-pulse',
I_channel='MW_Imod',
Q_channel='MW_Qmod',
PM_channel='MW_pulsemod',
PM_risetime=m.params['MW_pulse_mod_risetime'],
frequency=m.params['CORPSE_pi2_mod_frq'],
amplitude=m.params['CORPSE_pi2_amp'],
length_24p3=m.params['CORPSE_pi2_24p3_duration'],
length_m318p6=m.params['CORPSE_pi2_m318p6_duration'],
length_384p3=m.params['CORPSE_pi2_384p3_duration'])
def cal_CORPSE_pi2(name):
m = CORPSEPi2Calibration(name + 'M=1')
funcs.prepare(m)
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi2_sweep_amps'] = np.linspace(0.42, 0.52, pts) #
m.params['multiplicity'] = 1
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_element_length'] = 1e-6
# for the autoanalysis
m.params['sweep_name'] = 'CORPSE pi/2 amplitude (V)'
m.params['sweep_pts'] = m.params['CORPSE_pi2_sweep_amps']
funcs.finish(m)
def cal_CORPSE_pi2(name):
m = CORPSEPi2Calibration(name+'M=1')
funcs.prepare(m)
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi2_sweep_amps'] = np.linspace(0.42, 0.50, pts)#
m.params['multiplicity'] = 1
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_element_length'] = 1e-6
# for the autoanalysis
m.params['sweep_name'] = 'CORPSE pi/2 amplitude (V)'
m.params['sweep_pts'] = m.params['CORPSE_pi2_sweep_amps']
funcs.finish(m)
def cal_CORPSE_pi(name):
m = CORPSEPiCalibration(name+'M=11')
funcs.prepare(m)
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi_sweep_amps'] = np.linspace(0.39, 0.49, pts)
m.params['multiplicity'] = 11
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_reps'] = 15
# for the autoanalysis
m.params['sweep_name'] = 'CORPSE amplitude (V)'
m.params['sweep_pts'] = m.params['CORPSE_pi_sweep_amps']
funcs.finish(m)
def cal_CORPSE_pi(name):
m = CORPSEPiCalibration(name + 'M=11')
funcs.prepare(m)
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi_sweep_amps'] = np.linspace(0.39, 0.49, pts)
m.params['multiplicity'] = 11
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_reps'] = 15
# for the autoanalysis
m.params['sweep_name'] = 'CORPSE amplitude (V)'
m.params['sweep_pts'] = m.params['CORPSE_pi_sweep_amps']
funcs.finish(m)
def find_CORPSE_pi2_fidelity(name):
m = CORPSEPi2Calibration(name+'fidelity_M=1')
funcs.prepare(m)
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi2_sweep_amps'] = np.ones(pts)*m.params['CORPSE_pi2_amp']#np.linspace(0.54, 0.66, pts)#
m.params['multiplicity'] = 1
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_element_length'] = 1e-6
m.params['delay_reps'] = 15
# for the autoanalysis
m.params['sweep_name'] = ''
m.params['sweep_pts'] = np.arange(pts) # m.params['CORPSE_pi_sweep_amps']
funcs.finish(m)
def cal_CORPSE_pi2_alternative(name, M):
m = CORPSEPi2Calibration(name + str(M))
funcs.prepare(m)
### Currently does not work, because element length fill-up causes dephasing.
#Calibration method abandoned for now
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi2_sweep_amps'] = np.linspace(0.5, 0.6, pts) #
m.params['multiplicity'] = M
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_element_length'] = 10e-9
# for the autoanalysis
m.params['sweep_name'] = 'CORPSE pi/2 amplitude (V)'
m.params['sweep_pts'] = m.params['CORPSE_pi2_sweep_amps']
funcs.finish(m)
def find_CORPSE_pi2_fidelity(name):
m = CORPSEPi2Calibration(name + 'fidelity_M=1')
funcs.prepare(m)
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi2_sweep_amps'] = np.ones(pts) * m.params[
'CORPSE_pi2_amp'] #np.linspace(0.54, 0.66, pts)#
m.params['multiplicity'] = 1
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_element_length'] = 1e-6
m.params['delay_reps'] = 15
# for the autoanalysis
m.params['sweep_name'] = ''
m.params['sweep_pts'] = np.arange(pts) # m.params['CORPSE_pi_sweep_amps']
funcs.finish(m)
def cal_CORPSE_pi2_alternative(name, M):
m = CORPSEPi2Calibration(name+str(M))
funcs.prepare(m)
### Currently does not work, because element length fill-up causes dephasing.
#Calibration method abandoned for now
pts = 11
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['wait_for_AWG_done'] = 1
# sweep params
m.params['CORPSE_pi2_sweep_amps'] = np.linspace(0.5, 0.6, pts)#
m.params['multiplicity'] = M
name = name + 'M={}'.format(m.params['multiplicity'])
m.params['delay_element_length'] = 10e-9
# for the autoanalysis
m.params['sweep_name'] = 'CORPSE pi/2 amplitude (V)'
m.params['sweep_pts'] = m.params['CORPSE_pi2_sweep_amps']
funcs.finish(m)
def electronramsey(name):
m = pulsar.ElectronRamsey(name)
funcs.prepare(m)
pts = 61
m.params['pts'] = pts
m.params['repetitions'] = 1000
m.params['evolution_times'] = np.linspace(0,1200e-9,pts)
# MW pulses
m.params['detuning'] = 0.0e6
m.params['CORPSE_pi2_mod_frq'] = m.params['CORPSE_pi2_mod_frq'] + m.params['detuning']
m.params['CORPSE_pi2_amps'] = np.ones(pts)*m.params['CORPSE_pi2_amp']
m.params['CORPSE_pi2_phases1'] = np.ones(pts) * 0
m.params['CORPSE_pi2_phases2'] = np.ones(pts) * 0#360 * m.params['evolution_times'] * 2e6
# for the autoanalysis
m.params['sweep_name'] = 'evolution time (ns)'
m.params['sweep_pts'] = m.params['evolution_times'] /1e-9
funcs.finish(m)
def cal_8mhz_rabi(name):
m = pulsar_msmt.ElectronRabi('cal_8mhz_rabi' + name)
funcs.prepare(m)
m.params['pts'] = 21
pts = m.params['pts']
m.params['repetitions'] = 1000
#m.params['MW_pulse_multiplicities'] = np.ones(pts).astype(int)
#m.params['MW_pulse_delays'] = np.ones(pts) * 20e-9
# MW pulses
m.params['MW_pulse_durations'] = np.linspace(0, 250e-9, pts) + 5e-9
m.params['MW_pulse_amplitudes'] = np.ones(pts) * 0.545
m.params['MW_pulse_frequency'] = m.params['f0']
# for the autoanalysis
m.params['sweep_name'] = 'MW pulse duration (ns)'
m.params['sweep_pts'] = m.params['MW_pulse_durations'] * 1e9
m.params['sequence_wait_time'] = \
int(np.ceil(np.max(m.params['MW_pulse_durations'])*1e6)+10)
funcs.finish(m)
def cal_8mhz_rabi(name):
m = pulsar_msmt.ElectronRabi('cal_8mhz_rabi'+name)
funcs.prepare(m)
m.params['pts'] = 21
pts = m.params['pts']
m.params['repetitions'] = 1000
#m.params['MW_pulse_multiplicities'] = np.ones(pts).astype(int)
#m.params['MW_pulse_delays'] = np.ones(pts) * 20e-9
# MW pulses
m.params['MW_pulse_durations'] = np.linspace(0,250e-9,pts) + 5e-9
m.params['MW_pulse_amplitudes'] = np.ones(pts) * 0.545
m.params['MW_pulse_frequency'] = m.params['f0']
# for the autoanalysis
m.params['sweep_name'] = 'MW pulse duration (ns)'
m.params['sweep_pts'] = m.params['MW_pulse_durations'] * 1e9
m.params['sequence_wait_time'] = \
int(np.ceil(np.max(m.params['MW_pulse_durations'])*1e6)+10)
funcs.finish(m)
def prepare(m):
funcs.prepare(m)
m.CORPSE_pi = pulselib.IQ_CORPSE_pi_pulse('CORPSE pi-pulse',
I_channel = 'MW_Imod',
Q_channel = 'MW_Qmod',
PM_channel = 'MW_pulsemod',
PM_risetime = m.params['MW_pulse_mod_risetime'],
frequency = m.params['CORPSE_pi_mod_frq'],
amplitude = m.params['CORPSE_pi_amp'],
length_60 = m.params['CORPSE_pi_60_duration'],
length_m300 = m.params['CORPSE_pi_m300_duration'],
length_420 = m.params['CORPSE_pi_420_duration'])
m.CORPSE_pi2 = pulselib.IQ_CORPSE_pi2_pulse('CORPSE pi2-pulse',
I_channel = 'MW_Imod',
Q_channel = 'MW_Qmod',
PM_channel = 'MW_pulsemod',
PM_risetime = m.params['MW_pulse_mod_risetime'],
frequency = m.params['CORPSE_pi2_mod_frq'],
amplitude = m.params['CORPSE_pi2_amp'],
length_24p3 = m.params['CORPSE_pi2_24p3_duration'],
length_m318p6 = m.params['CORPSE_pi2_m318p6_duration'],
length_384p3 = m.params['CORPSE_pi2_384p3_duration'])