after Molecular Clock

maloja.py

@@ -21,7 +21,7 @@ from slic.utils import devices, Marker, as_shortcut
 #from slic.utils import unpickle
 
 from devices.attenuator import Attenuator
-from devices.undulator import Undulators, TwoColorChicane, Phases
+from devices.undulator import Undulators, TwoColorChicaneCurrent, TwoColorChicaneDelay, Phases
 from devices.holo_sample_motion import HoloSample
 #from devices.phases import UndPhases
 
@@ -40,17 +40,18 @@ gas_attenuator_trans = PVAdjustable("SATFE10-OGAT053:TRANSMISSION", process_time
 
 #jet_delay = PVAdjustable("SATES20-CVME-EVR0:Pul6-Delay-SP", "SATES20-CVME-EVR0:Pul6-Delay-RB", accuracy=1, name="Jet Delay")
 
-source_delay = PVAdjustable("SATES20-CVME-EVR0:Pul14-Delay-SP", "SATES20-CVME-EVR0:Pul14-Delay-RB", accuracy=1, name="Source Delay")
+source_delay = PVAdjustable("SATES20-CVME-EVR0:Pul1-Delay-SP", "SATES20-CVME-EVR0:Pul1-Delay-RB", accuracy=1, name="Source Delay")
 
 mono = PVAdjustable("SATOP11-OSGM087:SetEnergy", "SATOP11-OSGM087:photonenergy", accuracy=0.1, process_time=3, name="Mono Coupled")
 
 #waveplate = Motor("SLAAT21-LMOT-M712:MOT", name="Laser Waveplate")
-TT_delay = Motor("SLAAT21-LMOT-M704:MOT", name="TT_delay")
+TT_delay = DelayStage("SLAAT21-LMOT-M704:MOT", name="TT_delay")
 #laser_comp21 = Motor("SLAAT21-LMOT-M701:MOT", name="Laser Comp T2")
 #laser_comp11 = Motor("SLAAT21-LMOT-M705:MOT", name="Laser Comp T1 1")
-pump_probe_delay = Motor("SLAAT21-LMOT-M703:MOT", name="pump_probe_delay")
+pump_probe_delay = DelayStage("SLAAT21-LMOT-M703:MOT", name="pump_probe_delay")
 #laser_comp12 = Motor("SLAAT21-LMOT-M706:MOT", name="Laser Comp T1 2")
 #laser_delay = DelayStage("SLAAT21-LMOT-M708:MOT", name="Laser Delay")
+EO_delay = Motor("SLAAT21-LMOT-M714:MOT", name="EO_delay")
 laser_delay = Motor("SLAAT21-LMOT-M708:MOT", name="Laser Global Delay")
 lxt = PVAdjustable("SLAAT01-LTIM-PDLY:DELAY", pvname_done_moving="SLAAT01-LTIM-PDLY:WAITING", name="LXT")
 
@@ -66,16 +67,18 @@ pump_pulse_energy = Motor("SLAAT21-LMOT-M702:MOT", name="Pump Pulse Energy (Wave
 
 att = Attenuator("SATFE10-OATT064")
 shutter = Shutter("SATOP21-OPSH138")
-chic_delay = TwoColorChicane("zz Two Color Chicane")
 
+chic_delay_current = TwoColorChicaneCurrent(name="zz Two Color Chicane as current")
+chic_delay_delay = TwoColorChicaneDelay(name="zz Two Color Chicane as delay")
+chic_delay = chic_delay_current #TODO remove, and rename above
 
 und = Undulators(name="z Athos Undulators (both colors)")
 und1 = Undulators([6, 7, 8, 9, 10, 11, 12, 13],     n_und_ref=10, name="z Athos Undulators  6-13 (first color)")
 und2 = Undulators([15, 16, 17, 18, 19, 20, 21, 22], n_und_ref=19, name="z Athos Undulators 15-22 (second color)")
 
-und.set_limits(390, 1100)
-und1.set_limits(390, 1100)
-und2.set_limits(390, 1100)
+und.set_limits(320, 1300)
+und1.set_limits(320, 1300)
+und2.set_limits(320, 1300)
 
 
 class MonoUndCoupled(Adjustable):
@@ -151,19 +154,25 @@ mark_gascell    = Marker(standa,  88.334, "Gas Cell")
 mark_tof        = Marker(standa,  28.330, "TOF")
 
 
-magn = PV("SATUN14-MBND100:CYCLE")
+#magn = PV("SATUN14-MBND100:CYCLE")
+
+#@as_shortcut
+#def cycle_magnet():
+#    magn.put(1, wait=True)
+#    for _ in trange(250):
+#        sleep(1)
+#    # set the current to 1 and 5 consecutively,
+#    # since the results after the first step always looks strange
+#    chic_delay.set(1).wait()
+#    sleep(1)
+#    chic_delay.set(5).wait()
+#    sleep(1)
+
 
 @as_shortcut
 def cycle_magnet():
-    magn.put(1, wait=True)
-    for _ in trange(250):
-        sleep(1)
-    # set the current to 1 and 5 consecutively,
-    # since the results after the first step always looks strange
-    chic_delay.set(1).wait()
-    sleep(1)
-    chic_delay.set(5).wait()
-    sleep(1)
+    chic_delay.cycle_magnet()
+
 
 
 # add some more devices to the overview
@@ -213,10 +222,19 @@ instrument = "maloja"
 #pgroup = "p20279" # SPI -- Ban
 #pgroup = "p20848" # Holo -- Boris 
 #pgroup = "p20851" # Camera test Edwin, use below instead
-pgroup = "p21011" # Camera test Edwin
+#pgroup = "p21011" # Camera test Edwin
 #pgroup = "p20823" # SPI - Issendorf
 #pgroup = "p21108" # SPI commisioning multi-stage
-
+#pgroup = "p21160" # Streaking HERO as
+#pgroup = "p21201" # Heated jet XPS test
+#pgroup = "p20824" # XMCD two color
+#pgroup = "p21234" # glycine
+#pgroup = "p21235" # CF4
+#pgroup = "p21535" # Liquid Jet commissioning
+#pgroup = "p21509" # HBT
+#pgroup = "p21510" # Time-resolved ferromagnetic resonance
+#pgroup = "p21584" # Transverse cavity and spike counting test
+pgroup = "p21512" # REMI: Molecular Clock -- Xinhua
 
 daq = SFAcquisition(instrument, pgroup, default_channels=channels, default_pvs=pvs, default_detectors=None, rate_multiplicator=1, append_user_tag_to_data_dir=True, spreadsheet=spreadsheet)
 #daq = FakeAcquisition(instrument, pgroup)
@@ -227,8 +245,22 @@ check_intensity = PVCondition("SATBD01-DBPM060:Q2", vmin=5, vmax=None, wait_time
 #check_intensity = None
 
 scan = Scanner(scan_info_dir=f"/sf/{instrument}/data/{pgroup}/res/scan_info", default_acquisitions=[daq], condition=check_intensity)
-
 gui = GUI(scan, show_goto=True, show_spec=True, show_run=True)
 
+# CTA DAQ
+from ctadaq import CTAAcquisition
+import sys
+sys.path.append('/photonics/home/gac-maloja/Andrin')
+from scripts import *
+
+
+muphase = PVAdjustable("VXGC:Phase", name='Microwave Phase')
+#mufreq = PV('VXGC:Freq')
+ctadaq = CTAAcquisition(instrument, pgroup, default_channels=channels, default_pvs=pvs, default_detectors=None, rate_multiplicator=1, append_user_tag_to_data_dir=True, spreadsheet=spreadsheet)
+ctascan = Scanner(scan_info_dir=f"/sf/{instrument}/data/{pgroup}/res/scan_info", default_acquisitions=[ctadaq], condition=check_intensity)
+ctagui = GUI(ctascan, show_goto=True, show_spec=True, show_run=True, title="CTA DAQ")
+
+
+from devices.adrian import turboscope, microwave