Exemplo n.º 1
0
def calslowpipulse(name):
    m = mbi.ElectronRabi('pi_calib_slow_'+name,
        qt.instruments['adwin'], qt.instruments['AWG'])
       
    m.params.from_dict(qt.cfgman['protocols']['AdwinSSRO'])
    m.params.from_dict(qt.cfgman['protocols']['sil2-default']['AdwinSSRO'])
    m.params.from_dict(qt.cfgman['protocols']['AdwinSSRO+MBI'])
    m.params.from_dict(qt.cfgman['protocols']['sil2-default']['AdwinSSRO+MBI'])
    
    pts = 8
    m.params['pts'] = pts
    m.params['AWG_RO_MW_pulse_durations'] = np.ones(pts) * 2500
    m.params['AWG_RO_MW_pulse_amps'] = np.linspace(0.009, 0.012, pts)
    m.params['AWG_RO_MW_pulse_ssbmod_frqs'] = np.ones(pts) * \
        m.params['AWG_MBI_MW_pulse_ssbmod_frq']
    m.params['reps_per_ROsequence'] = 1000
    m.params['MW_pulse_multiplicity'] = 5
    
    m.params['sweep_name'] = 'MW pulse amplitude (V)'
    m.params['sweep_pts'] = m.params['AWG_RO_MW_pulse_amps']
    
    m.setup()
    m.autoconfig()
    m.generate_sequence()
    m.run()
    m.save()
    m.finish()  
Exemplo n.º 2
0
def calpi397ns(name):
    m = mbi.ElectronRabi('pi_calib_397ns_'+name, 
        qt.instruments['adwin'], qt.instruments['AWG'])
    mbi._prepare(m)

    pts = 8
    m.params['pts'] = pts
    m.params['AWG_RO_MW_pulse_durations'] = np.ones(pts) * 396
    m.params['AWG_RO_MW_pulse_amps'] = np.linspace(0.06, 0.1, pts)
    m.params['AWG_RO_MW_pulse_ssbmod_frqs'] = np.ones(pts) * \
        m.params['AWG_MBI_MW_pulse_ssbmod_frq'] 
    m.params['reps_per_ROsequence'] = 1000
    m.params['MW_pulse_multiplicity'] = 5
    m.params['MW_pulse_delay'] = 20000

    m.params['sweep_name'] = 'MW pulse amplitude (V)'
    m.params['sweep_pts'] = m.params['AWG_RO_MW_pulse_amps']

    mbi._run(m)
Exemplo n.º 3
0
def calCORPSE420(name):
    m = mbi.ElectronRabi('calib_CORPSE420_'+name, 
        qt.instruments['adwin'], qt.instruments['AWG'])
    mbi._prepare(m)

    pts = 8
    m.params['pts'] = pts
    m.params['AWG_RO_MW_pulse_durations'] = np.linspace(132,142,pts)
    m.params['AWG_RO_MW_pulse_amps'] = np.ones(pts) * 0.9
    m.params['AWG_RO_MW_pulse_ssbmod_frqs'] = np.ones(pts) * \
        m.params['AWG_MBI_MW_pulse_ssbmod_frq']
    m.params['reps_per_ROsequence'] = 1000
    m.params['MW_pulse_multiplicity'] = 1
    m.params['MW_pulse_delay'] = 100

    m.params['sweep_name'] = 'MW pulse duration (ns)'
    m.params['sweep_pts'] = m.params['AWG_RO_MW_pulse_durations']

    mbi._run(m)
Exemplo n.º 4
0
def calhardpipulse(name):
    m = mbi.ElectronRabi('pi_calib_hardpulse_'+name,#'pi_calib_hardpulse',
        qt.instruments['adwin'], qt.instruments['AWG'])
    mbi._prepare(m)

    pts = 8
    m.params['pts'] = pts
    m.params['AWG_RO_MW_pulse_durations'] = np.linspace(55,75,pts)
    m.params['AWG_RO_MW_pulse_amps'] = np.ones(pts) * 0.9
    m.params['AWG_RO_MW_pulse_ssbmod_frqs'] = np.ones(pts) * \
        m.params['AWG_MBI_MW_pulse_ssbmod_frq']
    m.params['reps_per_ROsequence'] = 1000
    m.params['MW_pulse_multiplicity'] = 5
    m.params['MW_pulse_delay'] = 20000

    m.params['sweep_name'] = 'MW pulse length (ns)'
    m.params['sweep_pts'] = m.params['AWG_RO_MW_pulse_durations']
    
    mbi._run(m)