def calibrate_pi2_pulse(name, debug=False): m = pulsar_msmt.GeneralPi2Calibration(name) sweep_Bell._setup_params(m, setup=qt.current_setup) pts = 11 m.params['pulse_type'] = 'Hermite Bell' m.params['pts_awg'] = pts m.params['repetitions'] = 5000 # 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['Ex_SP_amplitude'] = 0 m.params['SP_duration'] = 50 m.params['wait_for_AWG_done'] = 1 sweep_axis = m.params['MW_pi2_amp'] + np.linspace(-0.1, 0.1, pts) m.params['pulse_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)) espin_funcs.finish(m, debug=debug, pulse_pi=m.MW_pi, pulse_pi2=m.MW_pi2) #, upload='old_method')
def calibrate_Hermite_pi2_pulse(name, params, debug=False): m = pulsar_msmt.GeneralPi2Calibration(name) prepare(m, params) pulse_pi, pulse_pi2 = pulse_defs(m, pulse_type='Hermite') m.params['pulse_type'] = 'Hermite' m.params['IQmod'] = False pts = 11 m.params['pts_awg'] = pts m.params['repetitions'] = 3000 m.params['Ex_SP_amplitude'] = 0 m.params['wait_for_AWG_done'] = 1 # 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 sweep_axis = m.params['MW_pi2_amp'] + np.linspace(-0.15, 0.15, pts) m.params['pulse_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)) finish(m, debug=debug, pulse_pi=pulse_pi, pulse_pi2=pulse_pi2)
def calibrate_pi2_pulse(name, debug=False): m = pulsar_msmt.GeneralPi2Calibration(name) m.params.from_dict(qt.exp_params['samples'][SAMPLE]) m.params.from_dict(qt.exp_params['protocols']['AdwinSSRO']) m.params.from_dict(qt.exp_params['protocols'][SAMPLE_CFG]['AdwinSSRO']) m.params.from_dict( qt.exp_params['protocols'][SAMPLE_CFG]['AdwinSSRO-integrated']) m.params.from_dict(qt.exp_params['protocols']['AdwinSSRO+espin']) m.params.from_dict(qt.exp_params['protocols']['cr_mod']) m.params.from_dict(qt.exp_params['protocols'][SAMPLE_CFG]['pulses']) print 'pulse_shape =', m.params['pulse_shape'] pts = 11 m.params['pulse_type'] = 'Square QuMem' m.params['pts_awg'] = pts m.params['repetitions'] = 1500 # Append pi & pi/2 pulses to instance m.MW_pi = ps.X_pulse(m) m.MW_pi2 = ps.Xpi2_pulse(m) # 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['Ex_SP_amplitude'] = 0 # m.params['SP_duration'] = 50 m.params['wait_for_AWG_done'] = 1 # Square pulses sweep_axis = m.params['fast_pi2_amp'] + np.linspace(-0.1, 0.1, pts) m.params['pulse_pi2_sweep_amps'] = sweep_axis # Hermite pulses sweep_axis = m.params['Hermite_fast_pi2_amp'] + np.linspace( -0.08, 0.08, pts) m.params['pulse_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)) espin_funcs.finish(m, debug=debug, pulse_pi=m.MW_pi, pulse_pi2=m.MW_pi2)
def calibrate_pi2_pulse(name, debug=False, mw2=False): m = pulsar_msmt.GeneralPi2Calibration(name) espin_funcs.prepare(m) pts = 11 m.params['pulse_type'] = 'Hermite' m.params['pts_awg'] = pts m.params['repetitions'] = 2000 if mw2: print m.params['mw2_pulse_shape'] m.MW_pi = ps.mw2_X_pulse(m) m.MW_pi2 = ps.mw2_Xpi2_pulse(m) sweep_axis = m.params['mw2_Hermite_pi2_amp'] + np.linspace( -0.12, 0.12, pts) m.params['pulse_pi2_sweep_amps'] = sweep_axis else: print m.params['pulse_shape'] m.MW_pi = ps.X_pulse(m) m.MW_pi2 = ps.Xpi2_pulse(m) sweep_axis = m.params['Hermite_pi2_amp'] + np.linspace( -0.12, 0.12, pts) m.params['pulse_pi2_sweep_amps'] = sweep_axis # print 'this is the length',m.MW_pi2.length # 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['Ex_SP_amplitude'] = 0 # m.params['SP_duration'] = 50 m.params['wait_for_AWG_done'] = 1 # Square pulses # sweep_axis = m.params['fast_pi2_amp'] + np.linspace(-0.02, 0.02, pts) # m.params['pulse_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)) espin_funcs.finish(m, debug=debug, pulse_pi=m.MW_pi, pulse_pi2=m.MW_pi2)