Script execution
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x03daop
@@ -12,49 +12,6 @@ STEP (double)
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LATENCY = 0.0
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#################### Si 2p PhD scan ##############################
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VECTOR = [ 170.0]
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#for nn in range(63):
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# VECTOR.append(VECTOR[-1]+4)
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nn = 0
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initial_energy_range = [[63, 67, 0.1],
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[67.5, 77, 0.5]]
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pass_energy_hold = 20
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angle_time = [0.6, 0.7]
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#angle_range = [-9.2, -9.2+30.]
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#azi_range = [-90., -45.]
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#################### C 1s PhD scan ##############################
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#VECTOR = [ 340.0]
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#for nn in range(63):
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# VECTOR.append(VECTOR[-1]+4)
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#nn = 0
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#initial_energy_range = [[45, 52.4, 0.1],
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# [52.5, 62.5, 0.5]]
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#pass_energy_hold = 50
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#angle_time = [0.6, 0.7]
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#angle_range = [-9.2, -9.2+30.]
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#azi_range = [-90., -45.]
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#################### O 1s PhD scan ##############################
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#VECTOR = [ 630.0]
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#for nn in range(63):
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# VECTOR.append(VECTOR[-1]+4)
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#pass_energy_hold = 100
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#initial_energy_range = [[87.2, 95.5, 0.1],
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# [95.0, 105.0, 0.5]]
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#angle_time = [0.3, 0.4, 0.5, 0.6]
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#angle_range = [-9.2+20., -9.2+40., -9.2+60.]
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#azi_range = [-90., -45.]
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class SpectrumReader(ReadonlyRegisterBase, ReadonlyRegisterArray):
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def doRead(self):
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global VECTOR
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@@ -67,7 +24,7 @@ class SpectrumReader(ReadonlyRegisterBase, ReadonlyRegisterArray):
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def getSize(self):
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return len(Scienta.getSpectrumX())
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energy_scale_array = []
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class SpectrumReader1(SpectrumReader):
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def setup(self):
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@@ -107,46 +64,98 @@ class ImageReader(ReadonlyRegisterBase, ReadonlyRegisterMatrix):
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def getHeight(self):
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return Scienta.getDataMatrix().getHeight()
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reader1 = SpectrumReader1(); reader1.initialize()
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reader2 = SpectrumReader2(); reader2.initialize()
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#reader3 = SpectrumReader3(); reader3.initialize()
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image1 = ImageReader(); image1.initialize(); image1.index=0; set_device_alias(image1, "Image1")
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image2 = ImageReader(); image2.initialize(); image2.index=1; set_device_alias(image2, "Image2")
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#image3 = ImageReader(); image3.initialize(); image3.index=2; set_device_alias(image3, "Image3")
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def measure_stuff():
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global energy_scale_array, energy_scale_table, VECTOR,pass_energy_hold,angle_time,angle_range,azi_range
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reader1 = SpectrumReader1(); reader1.initialize()
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reader2 = SpectrumReader2(); reader2.initialize()
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#reader3 = SpectrumReader3(); reader3.initialize()
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image1 = ImageReader(); image1.initialize(); image1.index=0; set_device_alias(image1, "Image1")
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image2 = ImageReader(); image2.initialize(); image2.index=1; set_device_alias(image2, "Image2")
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#image3 = ImageReader(); image3.initialize(); image3.index=2; set_device_alias(image3, "Image3")
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Scienta.getDataMatrix()
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Scienta.getDataMatrix()
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SENSORS = [RefCurrent, reader1, image1, reader2, image2]#, reader3, image3]
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SENSORS = [RefCurrent, reader1, image1, reader2, image2]#, reader3, image3]
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Scienta.setAcquisitionMode(ch.psi.pshell.epics.Scienta.AcquisitionMode.Swept)
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Scienta.setAcquisitionMode(ch.psi.pshell.epics.Scienta.AcquisitionMode.Swept)
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energy_scale_table = "scan 1/EnergyScale"
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create_dataset(energy_scale_table, 'd', dimensions=[0,9])
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energy_scale_table = "scan 1/EnergyScale"
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create_dataset(energy_scale_table, 'd', dimensions=[0,9])
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adjust_sensors()
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set_adc_averaging()
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set_preference(Preference.PLOT_TYPES, {'Scienta spectrum':1})
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adjust_sensors()
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set_adc_averaging()
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set_preference(Preference.PLOT_TYPES, {'Scienta spectrum':1})
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try:
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# for ll in range(len(azi_range)):
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# ManipulatorPhi.move(azi_range[ll])
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# for nn in range(len(angle_range)):
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tic = time.time()
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# ManipulatorTheta.move(angle_range[nn])
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# print 'current theta is ', ManipulatorTheta.take(), ' and current azimuth is ' , ManipulatorPhi.take()
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Scienta.setPassEnergy(pass_energy_hold)
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Scienta.getStepTime().write(angle_time[nn])
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sleep(1)
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vscan(Eph, SENSORS, VECTOR, True, LATENCY,False, before_read=wait_beam, after_read = after_readout)
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toc = time.time()
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tictoc = round((toc-tic)/60*100)/100
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print 'time taken is ', tictoc, ' minutes'
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finally:
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if ENDSCAN:
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after_scan()
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try:
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# for ll in range(len(azi_range)):
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# ManipulatorPhi.move(azi_range[ll])
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# for nn in range(len(angle_range)):
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tic = time.time()
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# ManipulatorTheta.move(angle_range[nn])
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# print 'current theta is ', ManipulatorTheta.take(), ' and current azimuth is ' , ManipulatorPhi.take()
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Scienta.setPassEnergy(pass_energy_hold)
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Scienta.getStepTime().write(angle_time[nn])
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sleep(1)
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vscan(Eph, SENSORS, VECTOR, True, LATENCY,False, before_read=wait_beam, after_read = after_readout)
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toc = time.time()
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tictoc = round((toc-tic)/60*100)/100
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print 'time taken is ', tictoc, ' minutes'
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finally:
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if ENDSCAN:
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after_scan()
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global initial_energy_range,energy_scale_array, energy_scale_table, VECTOR,pass_energy_hold,angle_time,angle_range,azi_range
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#################### Si 2p PhD scan ##############################
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VECTOR = [ 170.0,174]
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#for nn in range(63):
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# VECTOR.append(VECTOR[-1]+4)
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#nn = 0
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toc = time.time()
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initial_energy_range = [[63, 67, 0.1],
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[67.5, 77, 0.5]]
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pass_energy_hold = 20
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angle_time = [0.5, 0.6, 0.7]
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angle_range = [-9.2, -9.2+30. -9.2+60.]
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azi_range = [-90., -45.]
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measure_stuff()
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#################### C 1s PhD scan ##############################
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VECTOR = [ 340.0,344]
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#for nn in range(63):
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# VECTOR.append(VECTOR[-1]+4)
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#nn = 0
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initial_energy_range = [[45, 52.4, 0.1],
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[52.5, 62.5, 0.5]]
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pass_energy_hold = 50
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angle_time = [0.6, 0.7]
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angle_range = [-9.2, -9.2+30.]
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azi_range = [-90., -45.]
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measure_stuff()
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#################### O 1s PhD scan ##############################
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VECTOR = [ 630.0,634]
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#for nn in range(63):
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# VECTOR.append(VECTOR[-1]+4)
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pass_energy_hold = 100
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initial_energy_range = [[87.2, 95.5, 0.1],
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[95.0, 105.0, 0.5]]
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angle_time = [0.3, 0.4, 0.5, 0.6]
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angle_range = [-9.2+20., -9.2+40., -9.2+60.]
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azi_range = [-90., -45.]
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energy_scale_array = []
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measure_stuff()
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#toc = time.time()
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