def darkesrp1_auto(name): m = pulsar_msmt.DarkESR(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['mw_frq'] = m.params['ms+1_cntr_frq'] - 43e6 #MW source frequency #m.params['mw_frq'] = 2*m.params['zero_field_splitting'] - m.params['ms-1_cntr_frq'] -43e6 m.params['mw_power'] = 20 m.params['repetitions'] = 3000 m.params['ssbmod_frq_start'] = 43e6 - 6.5e6 m.params['ssbmod_frq_stop'] = 43e6 + 6.5e6 m.params['pts'] = 151 m.params['pulse_length'] = 2e-6 m.params['ssbmod_amplitude'] = 0.05 m.autoconfig() m.generate_sequence(upload=False) m.run() m.save() m.finish()
def darkesr(name, range_MHz, pts, reps): m = pulsar_msmt.DarkESR(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['mw_frq'] = m.params['ms+1_cntr_frq']-43e6 #MW source frequency #m.params['mw_frq'] = 2*m.params['zero_field_splitting'] - m.params['ms-1_cntr_frq'] -43e6 m.params['mw_power'] = 20 m.params['repetitions'] = reps m.params['ssbmod_frq_start'] = 43e6 - range_MHz*1e6 ## first time we choose a quite large domain to find the three dips (15) m.params['ssbmod_frq_stop'] = 43e6 + range_MHz*1e6 m.params['pts'] = pts m.params['pulse_length'] = 2e-6 m.params['ssbmod_amplitude'] = 0.03 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesr(name): m = pulsar_msmt.DarkESR(name) m.params.from_dict(qt.cfgman['protocols']['AdwinSSRO']) m.params.from_dict(qt.cfgman['protocols']['sil9-default']['AdwinSSRO']) m.params.from_dict( qt.cfgman['protocols']['sil9-default']['AdwinSSRO-integrated']) m.params.from_dict(qt.cfgman['protocols']['AdwinSSRO+espin']) ssro.AdwinSSRO.repump_aom = qt.instruments['GreenAOM'] m.params['repump_duration'] = m.params['green_repump_duration'] m.params['repump_amplitude'] = m.params['green_repump_amplitude'] m.params['mw_frq'] = 2.8e9 m.params['ssbmod_frq_start'] = 29e6 - 6e6 #22e6#18e6# m.params['ssbmod_frq_stop'] = 29e6 + 6e6 #34e6#33e6# m.params['pts'] = 101 m.params['mw_power'] = 20 m.params['pulse_length'] = 2.5e-6 m.params['repetitions'] = 2000 m.params['ssbmod_amplitude'] = 0.035 m.params['MW_pulse_mod_risetime'] = 10e-9 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesr(name, ms='msp'): m = pulsar_msmt.DarkESR(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']) if ms == 'msp': m.params[ 'mw_frq'] = m.params['ms+1_cntr_frq'] - 43e6 #MW source frequency m.params['ssbmod_amplitude'] = 0.03 elif ms == 'msm': m.params['mw_frq'] = 2 * m.params['zero_field_splitting'] - m.params[ 'ms+1_cntr_frq'] - 43e6 m.params['ssbmod_amplitude'] = 0.015 m.params['repetitions'] = 1000 m.params['ssbmod_frq_start'] = 43e6 - 5.5e6 m.params['ssbmod_frq_stop'] = 43e6 + 5.5e6 m.params['pts'] = 81 m.params['pulse_length'] = 2e-6 m.autoconfig() m.generate_sequence() m.run() m.save() m.finish()
def darkesr(name, range_MHz, pts, reps, power, MW_power, pulse_length): m = pulsar_msmt.DarkESR(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['temp'] = temperature_sensor.get_readlastval() m.params['magnet_position'] = magnet_Z_scanner.GetPosition() m.params[ 'mw_frq'] = m.params['ms-1_cntr_frq'] - 43e6 #MW source frequency m.params['mw_power'] = MW_power m.params['repetitions'] = reps m.params[ 'ssbmod_frq_start'] = 43e6 - range_MHz * 1e6 ## first time we choose a quite large domain to find the three dips (15) m.params['ssbmod_frq_stop'] = 43e6 + range_MHz * 1e6 m.params['pts'] = pts m.params['pulse_length'] = pulse_length m.params['ssbmod_amplitude'] = power #0.01 m.params['sweep_pts'] = (np.linspace( m.params['ssbmod_frq_start'], m.params['ssbmod_frq_stop'], m.params['pts']) + m.params['mw_frq']) * 1e-9 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesrp1(name): m = pulsar_msmt.DarkESR(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['mw_frq'] = 3.754e9 - 43e6 #MW source frequency m.params['mw_power'] = 20 m.params['repetitions'] = 3000 m.params['ssbmod_frq_start'] = 43e6 - 6.5e6 m.params['ssbmod_frq_stop'] = 43e6 + 6.5e6 m.params['pts'] = 41 m.params['pulse_length'] = 2e-6 m.params['ssbmod_amplitude'] = 0.05 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesrp1(name): m = pulsar_msmt.DarkESR(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['mw_mod_freq'] = 43e6 # m.params['SP_duration'] = 50 # m.params['ms+1_cntr_frq'] = 3.725838e9 m.params['mw_frq'] = m.params['ms+1_cntr_frq'] - m.params[ 'mw_mod_freq'] #MW source frequency # m.params['mw_frq'] = 2*m.params['zero_field_splitting'] - m.params['ms-1_cntr_frq'] - m.params['mw_mod_freq'] m.params['mw_power'] = -1 m.params['repetitions'] = 1000 m.params['ssbmod_frq_start'] = m.params['mw_mod_freq'] - 4e6 m.params['ssbmod_frq_stop'] = m.params['mw_mod_freq'] + 4e6 m.params['pts'] = 101 m.params['pulse_length'] = 3e-6 m.params['ssbmod_amplitude'] = 0.08 m.params['sweep_pts'] = ( np.linspace(m.params['ssbmod_frq_start'], m.params['ssbmod_frq_stop'], m.params['pts']) + m.params['mw_frq']) * 1e-9 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesrp1(name): '''dark ESR on the 0 <-> +1 transition ''' m = pulsar_msmt.DarkESR(name+'_p1') 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']['Gretel_sil10']['Magnetometry']) m.params['ssmod_detuning'] = m.params['MW_modulation_frequency'] m.params['mw_frq'] = m.params['ms+1_cntr_frq'] - m.params['ssmod_detuning'] # MW source frequency, detuned from the target #m.params['mw_power'] = 20 m.params['repetitions'] = 500 m.params['range'] = 10e6 m.params['pts'] = 101 m.params['pulse_length'] = 2e-6 m.params['ssbmod_amplitude'] = 0.005 m.params['Ex_SP_amplitude']=0 m.params['ssbmod_frq_start'] = m.params['ssmod_detuning'] - m.params['range'] m.params['ssbmod_frq_stop'] = m.params['ssmod_detuning'] + m.params['range'] m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesr(name, ms = 'msp', range_MHz = 6, pts = 81, reps = 1000, freq=0, pulse_length = 2e-6, ssbmod_amplitude = None, mw_power = 20, mw_switch=False): if mw_switch: m = pulsar_msmt.DarkESR_Switch(name) else: m = pulsar_msmt.DarkESR(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']['111_1_sil18']['pulses']) #Added to include the MW switch MA m.params['mw_power'] = mw_power m.params['temp'] = temperature_sensor.get_readlastval() m.params['magnet_position'] = magnet_Z_scanner.GetPosition() if ms == 'msp': m.params['mw_frq'] = m.params['ms+1_cntr_frq']-43e6 #MW source frequency m.params['pulse_length'] = pulse_length if ssbmod_amplitude == None: m.params['ssbmod_amplitude'] = 0.025 else: m.params['ssbmod_amplitude'] = ssbmod_amplitude elif ms == 'msm': m.params['mw_frq'] = m.params['ms-1_cntr_frq'] - 43e6 m.params['pulse_length'] = pulse_length if ssbmod_amplitude == None: m.params['ssbmod_amplitude'] = 0.010 else: m.params['ssbmod_amplitude'] = ssbmod_amplitude if freq != 0: m.params['mw_frq'] = freq - 43e6 m.params['repetitions'] = reps m.params['ssbmod_frq_start'] = 43e6 - range_MHz*1e6 m.params['ssbmod_frq_stop'] = 43e6 + range_MHz*1e6 m.params['pts'] = pts m.params['sweep_pts'] = (np.linspace(m.params['ssbmod_frq_start'], m.params['ssbmod_frq_stop'], m.params['pts']) + m.params['mw_frq'])*1e-9 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesr(name, **kw): '''dark ESR on the 0 <-> +/-1 transition ''' m = pulsar_msmt.DarkESR(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']) # m.params['ssmod_detuning'] = 250e6#m.params['MW_modulation_frequency'] m1_transition = kw.get('m1_transition', True) m.params['range'] = kw.get('range', 4e6) #5e6 # Range must be smaller than 30MHz because freq sweep is done via ssb mod m1_freq = m.params['ms-1_cntr_frq'] - 43e6 + 0 * 0.002191e9 p1_freq = m.params['ms+1_cntr_frq'] - 43e6 + 0 * 0.002191e9 m.params[ 'mw_frq'] = m1_freq if m1_transition else p1_freq #MW source frequency print 'mw_frq +43e6', p1_freq + 43e6 m.params['repetitions'] = 400 #200 m.params['pts'] = 151 m.params['pulse_length'] = m.params[ 'DESR_pulse_duration'] # was 2.e-6 changed to msmt params # NK 2015-05 27 m.params['ssbmod_amplitude'] = m.params[ 'DESR_pulse_amplitude'] if m1_transition else m.params[ 'DESR_pulse_amplitude'] * 1.5 m.params['mw_power'] = 20 m.params['Ex_SP_amplitude'] = 0 m.params['ssbmod_frq_start'] = 43e6 - m.params['range'] m.params['ssbmod_frq_stop'] = 43e6 + m.params['range'] list_swp_pts = np.linspace(m.params['ssbmod_frq_start'], m.params['ssbmod_frq_stop'], m.params['pts']) m.params['sweep_pts'] = (np.array(list_swp_pts) + m.params['mw_frq']) * 1e-9 print 'mw_frq +43e6', m.params['mw_frq'] + 43e6 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesr(name, ms='msp', range_MHz=6, pts=81, reps=1000, freq=0): m = pulsar_msmt.DarkESR(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'][SAMPLE_CFG]['Magnetometry']) m.params['Ex_SP_amplitude'] = 0. if ms == 'msp': m.params[ 'mw_frq'] = m.params['ms+1_cntr_frq'] - 43e6 #MW source frequency m.params['pulse_length'] = 2.5e-6 m.params['ssbmod_amplitude'] = 0.017 print m.params['ssbmod_amplitude'] elif ms == 'msm': print 'Ex_SP_amp is ', m.params['Ex_SP_amplitude'] m.params['mw_frq'] = 2 * m.params['zero_field_splitting'] - m.params[ 'ms+1_cntr_frq'] - 43e6 m.params['pulse_length'] = 2.5e-6 m.params['ssbmod_amplitude'] = 0.009 if freq != 0: m.params['mw_frq'] = freq - 43e6 m.params['mw_power'] = 20 m.params['repetitions'] = reps m.params[ 'ssbmod_frq_start'] = 43e6 - range_MHz * 1e6 ## first time we choose a quite large domain to find the three dips (15) m.params['ssbmod_frq_stop'] = 43e6 + range_MHz * 1e6 m.params['pts'] = pts m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesrp1(name): '''dark ESR on the 0 <-> +1 transition ''' m = pulsar_msmt.DarkESR(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']) # m.params.from_dict(qt.exp_params['protocols'][SAMPLE_CFG]['Magnetometry']) # m.params['ssmod_detuning'] = m.params['MW_modulation_frequency'] m.params['mw_frq'] = m.params[ 'ms+1_cntr_frq'] - 43e6 # - m.params['ssmod_detuning'] # MW source frequency, detuned from the target m.params['mw_power'] = 20 m.params['repetitions'] = 1000 m.params['range'] = 5e6 m.params['pts'] = 81 m.params['pulse_length'] = m.params[ 'DESR_pulse_duration'] #2.1e-6 changed to msmt params # NK 2015-05 27 m.params['ssbmod_amplitude'] = m.params[ 'DESR_pulse_amplitude'] #0.03 changed to msmt params # NK 2015-05-27 m.params['ssbmod_frq_start'] = 43e6 - m.params['range'] m.params['ssbmod_frq_stop'] = 43e6 + m.params['range'] list_swp_pts = np.linspace(m.params['ssbmod_frq_start'], m.params['ssbmod_frq_stop'], m.params['pts']) m.params['sweep_pts'] = (np.array(list_swp_pts) + m.params['mw_frq']) * 1e-9 m.autoconfig() m.generate_sequence(upload=True) m.run() m.save() m.finish()
def darkesr(name,width=16,upload=True): '''dark ESR on the 0 <-> -1 transition ''' m = pulsar_msmt.DarkESR(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']) stools.turn_off_all_lasers() m.params['ssmod_detuning'] = m.params['MW_modulation_frequency'] m.params['mw_frq'] = m.params['ms-1_cntr_frq'] - m.params['ssmod_detuning'] #MW source frequency, detuned from the target m.params['repetitions'] = 1000 m.params['range'] = 4e6 m.params['pts'] = 121 m.params['pulse_length'] = 4.e-6 m.params['ssbmod_amplitude'] = 0.023 m.params['Ex_SP_amplitude']=0 # Power broadening of pulse in kHz if width==700: m.params['range'] = 12.e6 m.params['mw_power']=7 m.params['pulse_length'] = 0.5e-6 m.params['ssbmod_amplitude'] = 0.032 if width==350: m.params['range'] = 0.35e6 m.params['mw_power']=7 m.params['pulse_length'] = 5e-6 m.params['ssbmod_amplitude'] = 0.016 if width==40: m.params['range'] = 0.05e6 m.params['mw_power']=-11 m.params['pulse_length'] = 40e-6 m.params['ssbmod_amplitude'] = 0.008 if width==16: m.params['range'] = 0.05e6 m.params['mw_power']=-17 m.params['pulse_length'] = 80e-6 m.params['ssbmod_amplitude'] = 0.008 m.params['ssbmod_frq_start'] = m.params['ssmod_detuning'] - m.params['range'] m.params['ssbmod_frq_stop'] = m.params['ssmod_detuning'] + m.params['range'] mIzero=np.linspace(m.params['ssbmod_frq_start'],m.params['ssbmod_frq_stop'], m.params['pts']) mIm1=mIzero-m.params['N_HF_frq'] mIp1=mIzero+m.params['N_HF_frq'] list_swp_pts=list(mIm1)+list(mIzero)+list(mIp1) list_swp_pts=list(mIzero) m.params['sweep_pts'] = (np.array(list_swp_pts) + m.params['mw_frq'])*1e-9 m.autoconfig() m.generate_sequence(upload=upload) if upload==False: AWG.set_runmode('SEQ') qt.msleep(10) AWG.start() qt.msleep(20) m.run() m.save() m.finish()