x11ma/script/Users/ales/Holder7.py

######Sample SL5-IN
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL5-IN/")
#open_vg13()
#
#TRY.write(23.75)
#TRZ.write(17.20)
#
#
#time.sleep(1)

    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_Survey', folder='XAS/2020/11/SL5-IN/')
#
##Nickel L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_Ni', folder='XAS/2020/11/SL5-IN/')
#
##Cobalt L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_Co', folder='XAS/2020/11/SL5-IN/')
#
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_F-Fe', folder='XAS/2020/11/SL5-IN/')
#
##Manganese L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_Mn', folder='XAS/2020/11/SL5-IN/')
#    
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_O', folder='XAS/2020/11/SL5-IN/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_C', folder='XAS/2020/11/SL5-IN/') 
#
#time.sleep(1)
#





######Sample SL5F-10IN
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL5F-10IN/")
#open_vg13()
#
#TRY.write(7.25)
#TRZ.write(10.20)
#
#
#time.sleep(1)
#
    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5F-10IN_Survey', folder='XAS/2020/11/SL5F-10IN/')
#
##Nickel L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5F-10IN_Ni', folder='XAS/2020/11/SL5F-10IN/')
#
##Cobalt L edge
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5F-10IN_Co', folder='XAS/2020/11/SL5F-10IN/')
#
##Fluor + Fe edges
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5F-10IN_F-Fe', folder='XAS/2020/11/SL5F-10IN/')
#
##Manganese L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_Mn', folder='XAS/2020/11/SL5-IN/')
#    
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_O', folder='XAS/2020/11/SL5-IN/')

##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-IN_C', folder='XAS/2020/11/SL5-IN/') 
#
#time.sleep(1)








######Sample SL-1moAGED
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL-1moAGED/")
#open_vg13()
#
#TRY.write(18.00)
#TRZ.write(17.45)
#
#
#time.sleep(1)
#
#    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-1moAGED_Survey', folder='XAS/2020/11/SL-1moAGED/')
#
##Nickel L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-1moAGED_Ni', folder='XAS/2020/11/SL-1moAGED/')
#
##Cobalt L edge
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-1moAGED_Co', folder='XAS/2020/11/SL-1moAGED/')
#
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 9)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-1moAGED_F-Fe', folder='XAS/2020/11/SL-1moAGED/')
#
##Manganese L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-1moAGED_Mn', folder='XAS/2020/11/SL-1moAGED/')
#    
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-1moAGED_O', folder='XAS/2020/11/SL-1moAGED/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-1moAGED_C', folder='XAS/2020/11/SL-1moAGED/') 
#
#time.sleep(1)
#
#
#
#
#
#
#
#
######Sample SLF-1moAGED
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SLF-1moAGED/")
#open_vg13()
#
#TRY.write(9.25)
#TRZ.write(15.45)
#
#
#time.sleep(1)
#
#    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SLF-1moAGED_Survey', folder='XAS/2020/11/SLF-1moAGED/')
#
##Nickel L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SLF-1moAGED_Ni', folder='XAS/2020/11/SLF-1moAGED/')
#
##Cobalt L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SLF-1moAGED_Co', folder='XAS/2020/11/SLF-1moAGED/')
#
##Fluor + Fe edges
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SLF-1moAGED_F-Fe', folder='XAS/2020/11/SLF-1moAGED/')
#
##Manganese L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SLF-1moAGED_Mn', folder='XAS/2020/11/SLF-1moAGED/')
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SLF-1moAGED_O', folder='XAS/2020/11/SLF-1moAGED/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SLF-1moAGED_C', folder='XAS/2020/11/SLF-1moAGED/') 
#
#time.sleep(1)
#
#
#
#
#
#
#
#
#
#
#
#
#
######Sample SL-60frespellet
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL-60frespellet/")
#open_vg13()
#
#TRY.write(22.00)
#TRZ.write(22.45)
#
#
#time.sleep(1)
#
    
###Survey
##nr_loops=1
##for i in range(nr_loops):
##    caput('X11MA-KEI10:RANGE', 7)
##    caput('X11MA-KEI11:RANGE', 8)
##    caput('X11MA-KEI12:RANGE', 10)
##    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-60frespellet_Survey', folder='XAS/2020/11/SL-60frespellet/')
##
##Nickel L edge
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-60frespellet_Ni', folder='XAS/2020/11/SL-60frespellet/')
#
##Cobalt L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-60frespellet_Co', folder='XAS/2020/11/SL-60frespellet/')
#
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-60frespellet_F-Fe', folder='XAS/2020/11/SL-60frespellet/')
#
##Manganese L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-60frespellet_Mn', folder='XAS/2020/11/SL-60frespellet/')
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-60frespellet_O', folder='XAS/2020/11/SL-60frespellet/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-60frespellet_C', folder='XAS/2020/11/SL-60frespellet/') 
#
#time.sleep(1)
#
##
#
#
#
#
#
#
#
#
######Sample SL5-60F
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL5-60F/")
#open_vg13()
#
#TRY.write(20.50)
#TRZ.write(25.45)
#
#
#time.sleep(1)
#
#    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-60F_Survey', folder='XAS/2020/11/SL5-60F/')
#
##Nickel L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-60F_Ni', folder='XAS/2020/11/SL5-60F/')
#
##Cobalt L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-60F_Co', folder='XAS/2020/11/SL5-60F/')
#
##Fluor + Fe edges
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-60F_F-Fe', folder='XAS/2020/11/SL5-60F/')
#
##Manganese L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-60F_Mn', folder='XAS/2020/11/SL5-60F/')
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-60F_O', folder='XAS/2020/11/SL5-60F/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL5-60F_C', folder='XAS/2020/11/SL5-60F/') 
#
#time.sleep(1)
#
#
#
#
#
#
#
#
#


######Sample SL8-F-Nov
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL8-F-Nov/")
#open_vg13()
#
#TRY.write(7.25)
#TRZ.write(27.20)
#
#
#time.sleep(1)
#
#    
###Survey
##nr_loops=1
##for i in range(nr_loops):
##    caput('X11MA-KEI10:RANGE', 7)
##    caput('X11MA-KEI11:RANGE', 8)
##    caput('X11MA-KEI12:RANGE', 10)
##    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-Nov_Survey', folder='XAS/2020/11/SL8-F-Nov/')
##
##Nickel L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-Nov_Ni', folder='XAS/2020/11/SL8-F-Nov/')
#
##Cobalt L edge
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-Nov_Co', folder='XAS/2020/11/SL8-F-Nov/')
#
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-Nov_F-Fe', folder='XAS/2020/11/SL8-F-Nov/')
#
##Manganese L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-Nov_Mn', folder='XAS/2020/11/SL8-F-Nov/')
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-Nov_O', folder='XAS/2020/11/SL8-F-Nov/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-Nov_C', folder='XAS/2020/11/SL8-F-Nov/') 
#
#time.sleep(1)
#
#
#
#
#
#
######Sample AS1-pris
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/AS1-pris/")
#open_vg13()
#
#TRY.write(21.80)
#TRZ.write(10.95)
#
#
#time.sleep(1)
#
#    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1-pris_Survey', folder='XAS/2020/11/AS1-pris/')
#
##Nickel L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 7)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1-pris_Ni', folder='XAS/2020/11/AS1-pris/')
#
##Cobalt L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1-pris_Co', folder='XAS/2020/11/AS1-pris/')
#
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1-pris_F-Fe', folder='XAS/2020/11/AS1-pris/')
#
##Oxygen K edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1-pris_O', folder='XAS/2020/11/AS1-pris/')
#
##Carbon K edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1-pris_C', folder='XAS/2020/11/AS1-pris/') 
#
#time.sleep(1)










######Sample AS1F-pris
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/AS1F-pris/")
#open_vg13()
#
#TRY.write(17.50)
#TRZ.write(10.70)
#
#
#time.sleep(1)

    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1F-pris_Survey', folder='XAS/2020/11/AS1F-pris/')
#
##Nickel L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 7)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1F-pris_Ni', folder='XAS/2020/11/AS1F-pris/')
#
##Cobalt L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1F-pris_Co', folder='XAS/2020/11/AS1F-pris/')
#
##Fluor + Fe edges
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1F-pris_F-Fe', folder='XAS/2020/11/AS1F-pris/')
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1F-pris_O', folder='XAS/2020/11/AS1F-pris/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='AS1F-pris_C', folder='XAS/2020/11/AS1F-pris/') 
#
#time.sleep(1)











######Sample SL8-F-July
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL8-F-July/")
#open_vg13()
#
#TRY.write(8.50)
#TRZ.write(22.45)
#
#
#time.sleep(1)
#
#    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=500, end=900, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-July_Survey', folder='XAS/2020/11/SL8-F-July/')

##Nickel L edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 9)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=845, end=885, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-July_Ni', folder='XAS/2020/11/SL8-F-July/')
#
##Cobalt L edge
#nr_loops=3
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=772, end=805, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-July_Co', folder='XAS/2020/11/SL8-F-July/')
#
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-July_F-Fe', folder='XAS/2020/11/SL8-F-July/')
#
##Manganese L edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=630, end=670, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-July_Mn', folder='XAS/2020/11/SL8-F-July/')
#
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-July_O', folder='XAS/2020/11/SL8-F-July/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL8-F-July_C', folder='XAS/2020/11/SL8-F-July/') 
#
#time.sleep(1)
#
#
#
#
#
#
#
#
#
#


#####Sample SL-15ClLKAF
set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL-15ClLKAF/")
open_vg13()

TRY.write(1.10)
TRZ.write(26.20)


time.sleep(1)
#
#    
###Survey
##nr_loops=1
##for i in range(nr_loops):
##    caput('X11MA-KEI10:RANGE', 7)
##    caput('X11MA-KEI11:RANGE', 8)
##    caput('X11MA-KEI12:RANGE', 9)
##    otf(start=200, end=735, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF_Survey', folder='XAS/2020/11/SL-15ClLKAF/')
##
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 9)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF_F-Fe', folder='XAS/2020/11/SL-15ClLKAF/')
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF_O', folder='XAS/2020/11/SL-15ClLKAF/')
#
##Carbon + Potassium edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF_C', folder='XAS/2020/11/SL-15ClLKAF/') 
#













######Sample SL-15ClLKAF-air
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL-15ClLKAF-air/")
#open_vg13()
#
#TRY.write(2.00)
#TRZ.write(9.95)
#
#
#time.sleep(1)
#
#    
###Survey
##nr_loops=1
##for i in range(nr_loops):
##    caput('X11MA-KEI10:RANGE', 7)
##    caput('X11MA-KEI11:RANGE', 8)
##    caput('X11MA-KEI12:RANGE', 9)
##    otf(start=200, end=735, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF-air_Survey', folder='XAS/2020/11/SL-15ClLKAF-air/')
##
###Fluor + Fe edges
##nr_loops=2
##for i in range(nr_loops):
##    caput('X11MA-KEI10:RANGE', 7)
##    caput('X11MA-KEI11:RANGE', 8)
##    caput('X11MA-KEI12:RANGE', 9)
##    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF-air_F-Fe', folder='XAS/2020/11/SL-15ClLKAF-air/')
##
###Oxygen K edge
##nr_loops=1
##for i in range(nr_loops):
##    caput('X11MA-KEI10:RANGE', 7)
##    caput('X11MA-KEI11:RANGE', 8)
##    caput('X11MA-KEI12:RANGE', 10)
##    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF-air_O', folder='XAS/2020/11/SL-15ClLKAF-air/')
##
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-15ClLKAF-air_C', folder='XAS/2020/11/SL-15ClLKAF-air/') 
#
#time.sleep(1)
#
#










#####Sample SL-BMLKAF
set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL-BMLKAF/")
open_vg13()

TRY.write(0.10)
TRZ.write(21.45)


time.sleep(1)

    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 9)
#    otf(start=200, end=735, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-BMLKAF_Survey', folder='XAS/2020/11/SL-BMLKAF/')
#
##Fluor + Fe edges
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 9)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-BMLKAF_F-Fe', folder='XAS/2020/11/SL-BMLKAF/')
#
##Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-BMLKAF_O', folder='XAS/2020/11/SL-BMLKAF/')
#
##Carbon K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-BMLKAF_C', folder='XAS/2020/11/SL-BMLKAF/') 

#Aluminum L edge
nr_loops=2
for i in range(nr_loops):
    caput('X11MA-KEI10:RANGE', 7)
    caput('X11MA-KEI11:RANGE', 9)
    caput('X11MA-KEI12:RANGE', 9)
    otf(start=1558, end=1592, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-BMLKAF_Al', folder='XAS/2020/11/SL-BMLKAF/')

time.sleep(1)










#
#
######Sample SL-LKAF
#set_exec_pars(path="/sls/X11MA/data/X11MA/Data1/XAS/2020/11/SL-LKAF/")
#open_vg13()
#
#TRY.write(1.50)
#TRZ.write(15.20)
#
#
#time.sleep(1)
#
#    
##Survey
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 9)
#    otf(start=200, end=735, time=3, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-LKAF_Survey', folder='XAS/2020/11/SL-LKAF/')
#
##Fluor + Fe edges
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 9)
#    otf(start=680, end=735, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-LKAF_F-Fe', folder='XAS/2020/11/SL-LKAF/')
#
###Oxygen K edge
#nr_loops=1
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=520, end=570, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-LKAF_O', folder='XAS/2020/11/SL-LKAF/')
#
##Carbon K edge
#nr_loops=2
#for i in range(nr_loops):
#    caput('X11MA-KEI10:RANGE', 7)
#    caput('X11MA-KEI11:RANGE', 8)
#    caput('X11MA-KEI12:RANGE', 10)
#    otf(start=270, end=320, time=2, delay=10, mode='LINEAR', alpha = 0.0, offset=0.0, name='SL-LKAF_C', folder='XAS/2020/11/SL-LKAF/') 
#
#    
#time.sleep(1)
#
#
close_vg13()
##
#