99 lines
3.6 KiB
Python
99 lines
3.6 KiB
Python
"""
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Arguments:
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SENSORS (list)
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PHI_RANGE (tuple (min, max))
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THETA_RANGE (tuple (min, max))
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STEPS (tuple (phi, theta))
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LATENCY (double)
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RELATIVE (BOOLEAN)
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ZIGZAG (BOOLEAN)
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"""
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import math
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global VECTOR, SENSORS
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MODE = "swept"
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LATENCY = 0.0
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SENSORS = [Counts, Scienta.dataMatrix, SampleCurrent, RefCurrent, MachineCurrent]
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Scienta.setAcquisitionMode(ch.psi.pshell.epics.Scienta.AcquisitionMode.Swept)
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writables = (ManipulatorTheta, ManipulatorX, ManipulatorY)
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adjust_sensors()
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SampleCurrentAveraging.write(1660)
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RefCurrentAveraging.write(1660)
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set_preference(Preference.PLOT_TYPES, {'Scienta spectrum':1})
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try:
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# C
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Scienta.getLowEnergy().write(190.0)
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Scienta.getHighEnergy().write(222.0)
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Scienta.getStepSize().write(0.1)
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Scienta.getStepTime().write(0.2)
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Scienta.setIterations(1)
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Eph.move(505.0)
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theta = [-9.0]
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#theta = [-9.0,6.0,21.0,31.0,41.0,51.0,61.0,71.0]
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x = [2.32*math.cos((th+9.0)*math.pi/180.0)-2.67 for th in theta]
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y = [2.32*math.sin((th+9.0)*math.pi/180.0)-0.2 for th in theta]
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VECTOR = [[theta[i], x[i], y[i]] for i in range(len(theta))]
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vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)
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# C - to avoid Zn2p secondary features
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Scienta.getLowEnergy().write(210.0)
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Scienta.getHighEnergy().write(240.0)
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Scienta.getStepSize().write(0.1)
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Scienta.getStepTime().write(0.2)
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Scienta.setIterations(1)
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Eph.move(520.0)
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theta = [-9.0]
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#theta = [-9.0,6.0,21.0,31.0,41.0,51.0,61.0,71.0]
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x = [2.32*math.cos((th+9.0)*math.pi/180.0)-2.67 for th in theta]
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y = [2.32*math.sin((th+9.0)*math.pi/180.0)-0.2 for th in theta]
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VECTOR = [[theta[i], x[i], y[i]] for i in range(len(theta))]
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vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)
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# Zn
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Scienta.getLowEnergy().write(175.0)
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Scienta.getHighEnergy().write(220.0)
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Scienta.getStepSize().write(0.1)
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Scienta.getStepTime().write(1.0)
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Scienta.setIterations(1)
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Eph.move(1240.0)
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theta = [-9.0]
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#theta = [-9.0,6.0,21.0,31.0,41.0,51.0,61.0,71.0]
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x = [2.37*math.cos((th+9.0)*math.pi/180.0)-2.67 for th in theta]
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y = [2.37*math.sin((th+9.0)*math.pi/180.0)-0.2 for th in theta]
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VECTOR = [[theta[i], x[i], y[i]] for i in range(len(theta))]
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vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)
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"""# Fe
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Scienta.getLowEnergy().write(180.0)
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Scienta.getHighEnergy().write(225.0)
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Scienta.getStepSize().write(0.1)
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Scienta.getStepTime().write(1.0)
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Scienta.setIterations(4)
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Eph.move(925.0)
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theta = [-9.0]
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theta = [-9.0,6.0,21.0,31.0,41.0,51.0,61.0,71.0]
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x = [2.32*math.cos((th+9.0)*math.pi/180.0)-2.67 for th in theta]
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y = [2.32*math.sin((th+9.0)*math.pi/180.0)-0.2 for th in theta]
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VECTOR = [[theta[i], x[i], y[i]] for i in range(len(theta))]
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vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)"""
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# Mn
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Scienta.getLowEnergy().write(175.0)
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Scienta.getHighEnergy().write(235.0)
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Scienta.getStepSize().write(0.1)
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Scienta.getStepTime().write(1.0)
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Scienta.setIterations(1)
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Eph.move(860.0)
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theta = [-9.0]
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#theta = [-9.0,6.0,21.0,31.0,41.0,51.0,61.0,71.0]
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x = [2.32*math.cos((th+9.0)*math.pi/180.0)-2.67 for th in theta]
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y = [2.32*math.sin((th+9.0)*math.pi/180.0)-0.2 for th in theta]
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VECTOR = [[theta[i], x[i], y[i]] for i in range(len(theta))]
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vscan(writables, SENSORS, VECTOR, True, LATENCY, False, before_read=before_readout, after_read = after_readout)
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finally:
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after_scan()
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