import slic.devices as sd sd.general.smaract.SmarActAxis = sd.general.motor.Motor shutter = sd.general.shutter.Shutter("SARFE10-OPSH059") pp = sd.xoptics.pulsepicker.PulsePicker("SAROP11-OPPI112", "SGE-CPCW-71-EVR0:FrontUnivOut15") phaseShifter = sd.timing.lasertiming.PhaseShifterAramis( "SLAAR01-TSPL-EPL", "/sf/alvra/config/lasertiming", # z_undulator=127, name="Experiment laser phase shifter (Globi)" ) flexTable = sd.endstations.alvra_flex.FlexTable( "SARES12-XOTA128", name="Flex optical table", z_undulator=129 ) prism = sd.general.smaract.SmarActStage( "SARES11-XICM125", gonio="SARES11-XICM125:ROX1", trans="SARES11-XICM125:TRX1", rotat="SARES11-XICM125:ROY1", # z_undulator=127, name="Prime laser prism" ) xmic = sd.general.smaract.SmarActStage( "SARES11-XMI125", gonio="SARES11-XMI125:ROY1", rotat="SARES11-XMI125:ROZ1", # z_undulator=127, name="Prime microscope mirror" ) primeSample = sd.endstations.alvra_huber.Huber( "SARES11-XSAM125", name="Prime Sample Manipulator", z_undulator=125 ) flexSample = sd.endstations.alvra_huber.Huber( "SARES12-XSAM128", name="Flex Sample Manipulator", z_undulator=128 ) #TalbotGratings = sd.general.smaract.SmarActStage( # "SARES11-XUSR125-1234", # linear_x="SARES11-XUSR125:SA_MOT1", # linear_y="SARES11-XUSR125:SA_MOT2", # linear_z="SARES11-XUSR125:SA_MOT3", # rotation="SARES11-XUSR125:SA_MOT4", # name="Talbot Gratings" #) #signalMirror = sd.general.smaract.SmarActStage( # "SARES11-XUSR125-56", # linear="SARES11-XUSR125:SA_MOT5", # rotation="SARES11-XUSR125:SA_MOT6", # name="Signal Mirror" #) #primeMicroscope = sd.endstations.alvra_prime.Microscope( # "SARES11-XMI125", # gonio="SARES11-CMOV-SMA691113", # rotat="SARES11-CMOV-SMA691114", # description="Microscope focus and zoom", # z_undulator=127 #) primeTable = sd.endstations.alvra_prime.PrimeTable( "SARES11-XOTA125", name="Prime optical table", z_undulator=127 ) vacuum = sd.endstations.alvra_prime.Vacuum( "SARES11-V", name="Prime vacuum system", z_undulator=127 ) #primeCryTrans = sd.endstations.alvra_prime.VonHamosBragg( # "SARES11-XCRY125", # z_undulator=127, # description="Prime von Hamos X-trans (Bragg)" #) laser = sd.loptics.alvra_explaser.ExpLaser() laserShutter = sd.loptics.lasershutter.LaserShutter( "SLAAR11-LDIO-LAS6891:SET_BO02" ) pbpsOpt = sd.xdiagnostics.intensitymonitor.IntensityMonitorPBPS( "SAROP11-PBPS110", vme_crate="SAROP11-CVME-PBPS2", # please check this! ch_up=11, description="Intensity/position monitor in Optics hutch" ) #pbpsAtt = sd.xdiagnostics.intensitymonitor.IntensityMonitorPBPS( # "SAROP11-PBPS122", # vme_crate="SAROP11-CVME-PBPS1", # ch_up=4, ch_down=5, ch_right=3, ch_left=7, # description="Intensity/Position monitor after Attenuator" #) screenFE = sd.xdiagnostics.profilemonitor.ProfileMonitorPPRM( "SARFE10-PPRM053", description="Profile monitor after single-shot spectrometer (PPRM)" ) screenOP = sd.xdiagnostics.profilemonitor.ProfileMonitorPPRM( "SARFE10-PPRM064", description="Profile monitor after Front End" ) screenMirrAlv1 = sd.xdiagnostics.profilemonitor.ProfileMonitorPPRM( "SAROP11-PPRM066", description="Profile monitor after Alvra Mirror 1 (PPRM)" ) screenMirrAlv2 = sd.xdiagnostics.profilemonitor.ProfileMonitorPPRM( "SAROP11-PPRM078", description="Profile monitor after Alvra Mirror 2 (PPRM)" ) screenMirrorV2 = sd.xdiagnostics.profilemonitor.ProfileMonitorPPRM( "SAROP11-PPRM110", description="Profile monitor after Vertical Mirror 2 (PPRM)" ) screenOPEnd = sd.xdiagnostics.profilemonitor.ProfileMonitorPPRM( "SAROP11-PPRM117", description="Profile monitor after Optics hutch (PPRM)" ) screenAtt = sd.xdiagnostics.profilemonitor.ProfileMonitorPPRM( "SAROP11-PPRM122", description="Profile monitor after Attenuator" ) kbHor = sd.xoptics.kb.KBHor( "SAROP11-OKBH124", description="Alvra horizontal KB mirror" ) #kbVer = sd.xoptics.kb.KBVer( # "SAROP11-OKBV123", # description="Alvra vertical KB mirror" #) attFE = sd.xoptics.aramis_attenuator.Attenuator( "SARFE10-OATT053", description="Attenuator in Front End" ) attExp = sd.xoptics.aramis_attenuator.Attenuator( "SAROP11-OATT120", description="Attenuator Alvra" ) mono = sd.xoptics.dcm.DoubleCrystalMono( "SAROP11-ODCM105", description="Alvra DCM" ) offsetmirrorM1 = sd.xoptics.offsetmirrors.OffsetMirror( "SAROP11-OOMH064", description="Offset Mirror M1" ) offsetmirrorM2 = sd.xoptics.offsetmirrors.OffsetMirror( "SAROP11-OOMH076", description="Offset Mirror M2" ) #monoFEL = sd.xoptics.dcm.CoupledDoubleCrystalMono( # "SAROP11-ARAMIS", # description="Alvra DCM coupled to FEL energy" #) refLaser = sd.xoptics.aramis_reflaser.RefLaser( "SAROP11-OLAS120", description="Alvra beamline reference laser before KBs (OLAS)" ) #slitSwitch = sd.xoptics.slits.SlitUnit( # "SAROP11-OAPU104", # description="Slit in Optics hutch after Photon switchyard and before Alvra mono" #) #slitUnd = sd.xoptics.slits.SlitTwinUnit( # "SARFE10-OAPU044", # description="Slit after Undulator" #) slitAttExp = sd.xoptics.slits.SlitUnitCenterWidth( "SAROP11-OAPU120", description="Slits behind attenuator" ) #shutUnd = sd.???( # "SARFE10-OPSH044", # description="Photon shutter after Undulator" #) #gasMon = sd.???( # "SARFE10-PBIG050", # description="Gas Monitor Intensity (PBIG)" #) #pbpsUnd = sd.???( # "SARFE10-PBPS053", # z_undulator=44, # description="Intensity position monitor after Undulator (PBPS)" #) #shutFE = sd.???( # "SARFE10-SBST060", # description="Photon shutter in the end of Front End" #) #mirrorAlv1 = sd.???( # "SAROP11-OOMH064", # description="First Alvra Horizontal offset mirror (OMH064)" #) #mirrorAlv2 = sd.???( # "SAROP11-OOMH076", # description="Second Alvra Horizontal offset mirror (OMH076)" #) #mirrorV1 = sd.???( # "SAROP11-OOMV108", # description="Alvra Vertical offset Mirror 1 (OMV108)" #) #mirrorV2 = sd.???( # "SAROP11-OOMV109", # description="Alvra Vertical offset Mirror 2 (OMV109)" #) #pulsePicker = sd.???( # "SAROP11-OPPI110", # description="X-ray pulse picker" #) #shutOpt = sd.???( # "SAROP11-SBST114", # description="Shutter after Optics hutch" #) #DelayPALM = sd.???( # "SAROP11-PALM118", # description="Timing diagnostics THz streaking (PALM)" #) #DelayPSEN = sd.???( # "SAROP11-PSEN119", # description="Timing diagnostics spectral encoding (PSEN)" #)