def setUp(self): TestCase.setUp(self) baseops = Options() baseops.detectors['xray'] = PhotonIntensityDetector((0, 1), (0, 3)) self.m = Measurement(baseops) self.m.add_kratio(Ka(29), 0.2470, 0.004)
def setUp(self): TestCase.setUp(self) geometry = MultiLayers(pure(29)) geometry.add_layer(Material("AuPd", {79: 0.5, 46: 0.5}), 100e-9) baseops = Options() baseops.detectors['xray'] = PhotonIntensityDetector((0, 1), (0, 3)) meas = Measurement(baseops) meas.add_kratio(Ka(29), 0.2470, 0.004) getter = lambda geometry: geometry.layers[0].thickness_m setter = lambda geometry, val: setattr(geometry.layers[0], 'thickness_m', val) param = Parameter(getter, setter, 100e-9, 10e-9, 500e-9) self.exp = Experiment(geometry, [meas], [param])
from pymontecarlo.reconstruction.experiment import Experiment from pymontecarlo.reconstruction.measurement import Measurement from pymontecarlo.reconstruction.parameter import Parameter from pymontecarlo.reconstruction.reconstructor import Reconstructor from pymontecarlo.input import Inclusion, pure, Material, Options, ShowersLimit, PhotonIntensityDetector, composition_from_formula baseops = Options() baseops.beam.energy_eV = 10e3 baseops.beam.diameter_m = 50e-9 baseops.detectors['xray'] = PhotonIntensityDetector.annular( radians(40.0), radians(5.0)) baseops.limits.add(ShowersLimit(1000)) meas1 = Measurement(baseops) meas1.add_kratio(Ka(6), 0.5, standard=Material('Fe3C', composition_from_formula('Fe3C'))) def setter1(geometry, val): geometry.inclusion_material.composition = {26: val, 6: '?'} param1 = Parameter(setter1, 0.95, 0.0, 1.0) def setter2(geometry, val): geometry.inclusion_diameter_m = val