Small changes in the SPRKKR STO.py example.
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@ -11,6 +11,7 @@ import numpy as np
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import logging
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import sys
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import os
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import shutil
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import glob
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@ -78,8 +79,8 @@ if 'msspec' in sys.argv:
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# Build the SrTiO3 cluster #
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###########################################################################
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# We start by loading the potential since it updates info in the STO cell
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pot = SPRKKRPotential(STO, "SrTiO3/SrTiO3.pot_new",
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*glob.glob("SrTiO3/*PHAGEN.pot"))
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pot = SPRKKRPotential(STO, f"{prefix}/{prefix}.pot_new",
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*glob.glob(f"{prefix}/*PHAGEN.pot"))
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# tag each atom in the STO object to easily set the emitter in the
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# hemispherical_cluster function
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@ -105,38 +106,50 @@ if 'msspec' in sys.argv:
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# minimalistic set of parameter for XPD scan
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calc.set_atoms(cluster)
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calc.source_parameters.energy = 700
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calc.calculation_parameters.scattering_order = 2
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# We need to impose a maximum number of tl to use because there is still
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# a memory bug that I need to investigate. Anyway, usually 25 is not that
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# bad for the kind of atoms and the photon energy of lab sources...
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calc.tmatrix_parameters.lmax_mode = 'imposed'
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calc.tmatrix_parameters.lmaxt = 25
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data = None
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for source_energy in np.arange(500., 1501., 100.):
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calc.source_parameters.energy = source_energy
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# Run a polar scan with the default MuffinTin potential for Ti(2p3/2)
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data = calc.get_theta_scan(level='2p3/2')
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calc.tmatrix_parameters.potential = 'muffin_tin'
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data = calc.get_theta_scan(level='2p3/2', data=data)
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# Now we use the previously generated SPRKKR potential
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# and run the same calculation with appending the data to the previous one
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# Now we use the previously generated SPRKKR potential and run the same
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# calculation
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calc.tmatrix_parameters.potential = pot
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data = calc.get_theta_scan(level='2p3/2', data=data)
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# To better see the differences, plot the normalized signal on the
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# same graph
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# pick up previous data
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theta, muffintin_cs, sprkkr_cs = (data[0].theta.copy(),
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data[0].cross_section.copy(),
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data[1].cross_section.copy())
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# add a new dataset for storing normalized values
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dset = data.add_dset(f"comparison at {source_energy} eV")
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# make a copy of previous scans values
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theta, muffintin_cs, sprkkr_cs = (data[-3].theta.copy(),
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data[-3].cross_section.copy(),
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data[-2].cross_section.copy())
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# divide by the max
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sprkkr_cs /= sprkkr_cs.max()
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muffintin_cs /= muffintin_cs.max()
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# add a new dataset with those values
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dset = data.add_dset('comparison')
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dset.add_columns(theta=theta, sprkkr=sprkkr_cs, muffintin=muffintin_cs)
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# add a view for this dataset
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view = dset.add_view('Comparison',
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title=r'Comparison of XPD polar scans for Ti(2p3/2)',
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title=(f'Comparison of XPD polar scans for '
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r'Ti(2p3/2) at $h\nu$ = {:.0f} eV'.format(
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source_energy)),
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xlabel=r'$\Theta (\degree$)',
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ylabel='Normalized Signal (a.u.)')
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view.select('theta', 'sprkkr', legend='With SPRKKR potential')
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view.select('theta', 'muffintin', legend='With internal MuffinTin potential')
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view.select('theta', 'muffintin', legend='With internal MT potential')
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view.set_plot_options(autoscale=True)
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# Pop up the final result
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data.view()
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