open_vg13()
time.sleep(1)
'''
#XMCD

caput('X11MA-ES3-MAG1:V', 5)
#time.sleep(15)

TRZ.write(18.4)
sample_name='8nm'

for i in range(3):
    #time.sleep(1)
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC +', alpha = 0.0, offset=-9.0, name='Fe_'+sample_name + '_Cp')
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC -', alpha = 0.0, offset=-10.0, name='Fe_'+sample_name + '_Cm')  
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC -', alpha = 0.0, offset=-10.0, name='Fe_'+sample_name + '_Cm')
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC +', alpha = 0.0, offset=-9.0, name='Fe_'+sample_name + '_Cp')


# HYST

for i in range(1):
    FILENAME='Hyst_'+ sample_name + '_Cm'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 2  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -10.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')
    
    FILENAME='Hyst_'+ sample_name + '_Cp'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 1  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -9.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')




#XMCD

caput('X11MA-ES3-MAG1:V', 5)
#time.sleep(15)

TRZ.write(26.4)
sample_name='3nm'

for i in range(3):
    #time.sleep(1)
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC +', alpha = 0.0, offset=-9.0, name='Fe_'+sample_name + '_Cp')
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC -', alpha = 0.0, offset=-10.0, name='Fe_'+sample_name + '_Cm')  
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC -', alpha = 0.0, offset=-10.0, name='Fe_'+sample_name + '_Cm')
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC +', alpha = 0.0, offset=-9.0, name='Fe_'+sample_name + '_Cp')


# HYST

for i in range(1):
    FILENAME='Hyst_'+ sample_name + '_Cm'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 2  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -10.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')
    
    FILENAME='Hyst_'+ sample_name + '_Cp'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 1  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -9.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')




#XMCD

caput('X11MA-ES3-MAG1:V', 5)
#time.sleep(15)

TRZ.write(33.8)
sample_name='2nm'

for i in range(3):
    #time.sleep(1)
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC +', alpha = 0.0, offset=-9.0, name='Fe_'+sample_name + '_Cp')
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC -', alpha = 0.0, offset=-10.0, name='Fe_'+sample_name + '_Cm')  
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC -', alpha = 0.0, offset=-10.0, name='Fe_'+sample_name + '_Cm')
    otf2(start=695, end=760, time=4, delay=10, mode='CIRC +', alpha = 0.0, offset=-9.0, name='Fe_'+sample_name + '_Cp')

'''
# HYST

for i in range(1):
    FILENAME='Hyst_'+ sample_name + '_Cm'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 2  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -10.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')
    
    FILENAME='Hyst_'+ sample_name + '_Cp'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 1  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -9.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')



# repeat loops



caput('X11MA-ES3-MAG1:V', 5)
#time.sleep(15)

TRZ.write(18.4)
sample_name='8nm'


# HYST

for i in range(1):
    FILENAME='Hyst_'+ sample_name + '_Cm'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 2  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -10.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')
    
    FILENAME='Hyst_'+ sample_name + '_Cp'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 1  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -9.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')






caput('X11MA-ES3-MAG1:V', 5)
#time.sleep(15)

TRZ.write(26.4)
sample_name='3nm'


# HYST

for i in range(1):
    FILENAME='Hyst_'+ sample_name + '_Cm'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 2  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -10.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')
    
    FILENAME='Hyst_'+ sample_name + '_Cp'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 1  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -9.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')






caput('X11MA-ES3-MAG1:V', 5)
#time.sleep(15)

TRZ.write(33.8)
sample_name='2nm'



# HYST

for i in range(1):
    FILENAME='Hyst_'+ sample_name + '_Cm'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 2  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -10.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')
    
    FILENAME='Hyst_'+ sample_name + '_Cp'
    B1 = 5.0    # starting mag. field in Amps
    B2 = -5.0    # final mag. field in Amps
    BSTEP = 0.1   # step size mag. field in Amps. in Amps (1mT ~0.25A)
    ENERGIES = (700,709) #list of energies in eV
    MODE = 1  #polarization (CIRC+ -> 1 or CIRC- -> 2)
    OFFSET2 = -9.0 #ID2 offset
    FIELD_PRECISION = 0.04 #  
    ENERGY_CHANGE_SLEEP = 0.5 # put the Enerrgy settling time if needed
    FIELD_CHANGE_SLEEP =  0.5 # put the Field   settling time if needed
    ACC_TIME = 0.1 #I think this number x 10 is in seconds
    run('/sls/X11MA/data/X11MA/pshell/home/script/Users/Cinthia/field_sweepID2.py')


close_vg13()