def cal_CORPSE_pi2(name): """ Do a pi/2 with and without a pi pulse afterward, sweeping the amplitude of the pi/2. """ m = CORPSEPi2Calibration(name) funcs.prepare(m) pts = 21 m.params['pts_awg'] = pts # we do actually two msmts for every sweep point, that's why the awg gets only half of the # pts; m.params['pts'] = 2 * pts m.params['repetitions'] = 2000 m.params['wait_for_AWG_done'] = 1 m.params['CORPSE_mod_frq'] = m.params['CORPSE_pi_mod_frq'] sweep_axis = 0.42 + linspace(-0.06, 0.06, pts) m.params['CORPSE_pi2_sweep_amps'] = sweep_axis # for the autoanalysis m.params['sweep_name'] = 'MW pi/2 amp (V)' m.params['sweep_pts'] = np.sort(np.append(sweep_axis, sweep_axis)) funcs.finish(m, upload=UPLOAD, debug=DEBUG)
def cal_CORPSE_pi2(name): """ Do a pi/2 with and without a pi pulse afterward, sweeping the amplitude of the pi/2. """ m = CORPSEPi2Calibration(name) funcs.prepare(m) pts = 21 m.params['pts_awg'] = pts # we do actually two msmts for every sweep point, that's why the awg gets only half of the # pts; m.params['pts'] = 2*pts m.params['repetitions'] = 2000 m.params['wait_for_AWG_done'] = 1 m.params['CORPSE_mod_frq'] = m.params['CORPSE_pi_mod_frq'] sweep_axis = 0.42+linspace(-0.06,0.06,pts) m.params['CORPSE_pi2_sweep_amps'] = sweep_axis # for the autoanalysis m.params['sweep_name'] = 'MW pi/2 amp (V)' m.params['sweep_pts'] = np.sort(np.append(sweep_axis,sweep_axis)) funcs.finish(m, upload=UPLOAD, debug=DEBUG)
def cal_CORPSE_pi(name, multiplicity=5): m = CORPSEPiCalibration(name + 'M={}'.format(multiplicity)) 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_mod_frq'] = m.params['CORPSE_pi_mod_frq'] m.params['CORPSE_pi_sweep_amps'] = np.linspace(0.34, 0.44, pts) m.params['multiplicity'] = multiplicity 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, upload=UPLOAD, debug=False)
def cal_CORPSE_pi(name, multiplicity = 5): m = CORPSEPiCalibration(name+'M={}'.format(multiplicity)) 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_mod_frq'] = m.params['CORPSE_pi_mod_frq'] m.params['CORPSE_pi_sweep_amps'] = np.linspace(0.34, 0.44, pts) m.params['multiplicity'] = multiplicity 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, upload = UPLOAD, debug = False)
def cal_ssro_teleportation(name, A_SP_duration = 250): m = ssro.AdwinSSRO('SSROCalibration_'+name) m.params.from_dict(qt.cfgman['protocols']['AdwinSSRO']) funcs.prepare(m) m.params['SSRO_repetitions'] = 5000 m.params['SSRO_duration'] = 50 m.params['SP_duration'] = A_SP_duration # we want to calibrate the RO, not the SP # ms = 1 calibration m.params['Ex_SP_amplitude'] = 0 m.run() m.save('ms0') # ms = 1 calibration m.params['A_SP_amplitude'] = 0. m.params['SP_duration'] = 250 m.params['Ex_SP_amplitude'] = 10e-9 m.run() m.save('ms1') m.finish()
def cal_CORPSE_pi(name, multiplicity=5): m = CORPSEPiCalibration(name + "M={}".format(multiplicity)) 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_mod_frq"] = m.params["CORPSE_pi_mod_frq"] m.params["CORPSE_pi_sweep_amps"] = np.linspace(0.34, 0.44, pts) m.params["multiplicity"] = multiplicity 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, upload=UPLOAD, debug=False)
def cal_ssro_teleportation(name, A_SP_duration=250): m = ssro.AdwinSSRO("SSROCalibration_" + name) m.params.from_dict(qt.cfgman["protocols"]["AdwinSSRO"]) funcs.prepare(m) m.params["SSRO_repetitions"] = 5000 m.params["SSRO_duration"] = 50 m.params["SP_duration"] = A_SP_duration # we want to calibrate the RO, not the SP # ms = 1 calibration m.params["Ex_SP_amplitude"] = 0 m.run() m.save("ms0") # ms = 1 calibration m.params["A_SP_amplitude"] = 0.0 m.params["SP_duration"] = 250 m.params["Ex_SP_amplitude"] = 10e-9 m.run() m.save("ms1") m.finish()
def cal_ssro_teleportation(name, A_SP_duration=250): m = ssro.AdwinSSRO('SSROCalibration_' + name) m.params.from_dict(qt.cfgman['protocols']['AdwinSSRO']) funcs.prepare(m) m.params['SSRO_repetitions'] = 5000 m.params['SSRO_duration'] = 50 m.params[ 'SP_duration'] = A_SP_duration # we want to calibrate the RO, not the SP # ms = 1 calibration m.params['Ex_SP_amplitude'] = 0 m.run() m.save('ms0') # ms = 1 calibration m.params['A_SP_amplitude'] = 0. m.params['SP_duration'] = 250 m.params['Ex_SP_amplitude'] = 10e-9 m.run() m.save('ms1') m.finish()