| 1 | #!/usr/bin/env python |
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| 2 | # -*- coding: utf-8 -*- |
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| 3 | |
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| 4 | import sys |
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| 5 | from bumps.names import * |
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| 6 | from sasmodels.core import load_model |
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| 7 | from sasmodels.bumps_model import Model, Experiment |
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| 8 | from sasmodels.data import load_data, set_beam_stop, set_top |
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| 9 | |
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| 10 | """ IMPORT THE DATA USED """ |
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| 11 | radial_data = load_data('DEC07267.DAT') |
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| 12 | set_beam_stop(radial_data, 0.00669, outer=0.025) |
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| 13 | set_top(radial_data, -.0185) |
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| 14 | |
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| 15 | tan_data = load_data('DEC07266.DAT') |
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| 16 | set_beam_stop(tan_data, 0.00669, outer=0.025) |
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| 17 | set_top(tan_data, -.0185) |
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| 18 | #sas.set_half(tan_data, 'right') |
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| 19 | |
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| 20 | name = "ellipsoid" if len(sys.argv) < 2 else sys.argv[1] |
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| 21 | section = "radial" if len(sys.argv) < 3 else sys.argv[2] |
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| 22 | if section not in ("radial","tangential","both"): |
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| 23 | raise ValueError("section %r should be 'radial', 'tangential' or 'both'" |
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| 24 | % section) |
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| 25 | data = radial_data if section != "tangential" else tan_data |
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| 26 | theta = 89.9 if section != "tangential" else 0 |
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| 27 | phi = 90 |
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| 28 | kernel = load_model(name, dtype="single") |
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| 29 | cutoff = 1e-3 |
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| 30 | |
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| 31 | if name == "ellipsoid": |
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| 32 | model = Model(kernel, |
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| 33 | scale=0.08, background=35, |
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| 34 | radius_polar=15, radius_equatorial=800, |
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| 35 | sld=.291, sld_solvent=7.105, |
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| 36 | theta=theta, phi=phi, |
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| 37 | theta_pd=0, theta_pd_n=0, theta_pd_nsigma=3, |
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| 38 | phi_pd=0, phi_pd_n=20, phi_pd_nsigma=3, |
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| 39 | radius_polar_pd=0.222296, radius_polar_pd_n=1, radius_polar_pd_nsigma=0, |
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| 40 | radius_equatorial_pd=.000128, radius_equatorial_pd_n=1, radius_equatorial_pd_nsigma=0, |
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| 41 | ) |
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| 42 | |
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| 43 | # SET THE FITTING PARAMETERS |
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| 44 | model.radius_polar.range(15, 1000) |
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| 45 | model.radius_equatorial.range(15, 1000) |
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| 46 | #model.theta.range(0, 90) |
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| 47 | #model.theta_pd.range(0,10) |
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| 48 | model.phi_pd.range(0,20) |
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| 49 | model.phi.range(0, 180) |
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| 50 | model.background.range(0,1000) |
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| 51 | model.scale.range(0, 10) |
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| 52 | |
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| 53 | |
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| 54 | elif name == "lamellar": |
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| 55 | model = Model(kernel, |
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| 56 | scale=0.08, background=0.003, |
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| 57 | thickness=19.2946, |
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| 58 | sld=5.38,sld_sol=7.105, |
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| 59 | thickness_pd= 0.37765, thickness_pd_n=10, thickness_pd_nsigma=3, |
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| 60 | ) |
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| 61 | |
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| 62 | # SET THE FITTING PARAMETERS |
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| 63 | #model.thickness.range(0, 1000) |
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| 64 | #model.scale.range(0, 1) |
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| 65 | #model.thickness_pd.range(0, 1000) |
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| 66 | #model.background.range(0, 1000) |
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| 67 | model.sld.range(0, 1) |
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| 68 | |
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| 69 | |
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| 70 | elif name == "cylinder": |
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| 71 | """ |
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| 72 | pars = dict(scale=0.0023, radius=92.5, length=798.3, |
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| 73 | sld=.29, solvent_sld=7.105, background=5, |
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| 74 | theta=0, phi=phi, |
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| 75 | theta_pd=22.11, theta_pd_n=5, theta_pd_nsigma=3, |
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| 76 | radius_pd=.0084, radius_pd_n=10, radius_pd_nsigma=3, |
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| 77 | length_pd=0.493, length_pd_n=10, length_pd_nsigma=3, |
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| 78 | phi_pd=0, phi_pd_n=5 phi_pd_nsigma=3,) |
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| 79 | """ |
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| 80 | pars = dict( |
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| 81 | scale=.01, background=35, |
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| 82 | sld=.291, sld_solvent=5.77, |
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| 83 | radius=250, length=178, |
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| 84 | radius_pd=0.1, radius_pd_n=5, radius_pd_nsigma=3, |
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| 85 | length_pd=0.1,length_pd_n=5, length_pd_nsigma=3, |
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| 86 | theta=theta, phi=phi, |
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| 87 | theta_pd=0, theta_pd_n=0, theta_pd_nsigma=3, |
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| 88 | phi_pd=10, phi_pd_n=20, phi_pd_nsigma=3) |
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| 89 | model = Model(kernel, **pars) |
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| 90 | |
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| 91 | # SET THE FITTING PARAMETERS |
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| 92 | model.radius.range(1, 500) |
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| 93 | model.length.range(1, 5000) |
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| 94 | #model.theta.range(0, 90) |
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| 95 | model.phi.range(0, 180) |
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| 96 | model.phi_pd.range(0, 30) |
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| 97 | model.radius_pd.range(0, 1) |
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| 98 | model.length_pd.range(0, 1) |
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| 99 | model.scale.range(0, 10) |
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| 100 | model.background.range(0, 100) |
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| 101 | |
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| 102 | |
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| 103 | elif name == "core_shell_cylinder": |
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| 104 | model = Model(kernel, |
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| 105 | scale= .031, background=0, |
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| 106 | radius=19.5, thickness=30, length=22, |
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| 107 | sld_core=7.105, sld_shell=.291, sld_solvent=7.105, |
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| 108 | radius_pd=0.26, radius_pd_n=10, radius_pd_nsigma=3, |
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| 109 | length_pd=0.26, length_pd_n=10, length_pd_nsigma=3, |
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| 110 | thickness_pd=1, thickness_pd_n=1, thickness_pd_nsigma=1, |
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| 111 | theta=theta, phi=phi, |
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| 112 | theta_pd=1, theta_pd_n=1, theta_pd_nsigma=3, |
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| 113 | phi_pd=0, phi_pd_n=20, phi_pd_nsigma=3, |
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| 114 | ) |
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| 115 | |
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| 116 | # SET THE FITTING PARAMETERS |
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| 117 | model.radius.range(115, 1000) |
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| 118 | model.length.range(0, 2500) |
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| 119 | #model.thickness.range(18, 38) |
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| 120 | #model.thickness_pd.range(0, 1) |
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| 121 | #model.phi.range(0, 90) |
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| 122 | model.phi_pd.range(0,20) |
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| 123 | #model.radius_pd.range(0, 1) |
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| 124 | #model.length_pd.range(0, 1) |
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| 125 | #model.theta_pd.range(0, 360) |
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| 126 | #model.background.range(0,5) |
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| 127 | model.scale.range(0, 1) |
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| 128 | |
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| 129 | |
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| 130 | |
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| 131 | elif name == "capped_cylinder": |
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| 132 | model = Model(kernel, |
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| 133 | scale=.08, background=35, |
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| 134 | radius=20, cap_radius=40, length=400, |
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| 135 | sld=1, sld_solvent=6.3, |
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| 136 | radius_pd=.1, radius_pd_n=5, radius_pd_nsigma=3, |
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| 137 | cap_radius_pd=.1, cap_radius_pd_n=5, cap_radius_pd_nsigma=3, |
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| 138 | length_pd=.1, length_pd_n=1, length_pd_nsigma=0, |
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| 139 | theta=theta, phi=phi, |
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| 140 | theta_pd=0, theta_pd_n=1, theta_pd_nsigma=0, |
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| 141 | phi_pd=10, phi_pd_n=20, phi_pd_nsigma=0, |
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| 142 | ) |
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| 143 | |
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| 144 | model.radius.range(115, 1000) |
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| 145 | model.length.range(0, 2500) |
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| 146 | #model.thickness.range(18, 38) |
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| 147 | #model.thickness_pd.range(0, 1) |
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| 148 | #model.phi.range(0, 90) |
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| 149 | model.phi_pd.range(0,20) |
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| 150 | #model.radius_pd.range(0, 1) |
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| 151 | #model.length_pd.range(0, 1) |
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| 152 | #model.theta_pd.range(0, 360) |
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| 153 | #model.background.range(0,5) |
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| 154 | model.scale.range(0, 1) |
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| 155 | |
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| 156 | |
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| 157 | elif name == "triaxial_ellipsoid": |
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| 158 | model = Model(kernel, |
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| 159 | scale=0.08, background=35, |
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| 160 | radius_equat_minor=15, radius_equat_major=20, radius_polar=500, |
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| 161 | sld=7.105, solvent_sld=.291, |
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| 162 | radius_equat_minor_pd=.1, radius_equat_minor_pd_n=1, radius_equat_minor_pd_nsigma=0, |
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| 163 | radius_equat_major_pd=.1, radius_equat_major_pd_n=1, radius_equat_major_pd_nsigma=0, |
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| 164 | radius_polar_pd=.1, radius_polar_pd_n=1, radius_polar_pd_nsigma=0, |
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| 165 | theta=theta, phi=phi, psi=0, |
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| 166 | theta_pd=20, theta_pd_n=40, theta_pd_nsigma=3, |
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| 167 | phi_pd=.1, phi_pd_n=1, phi_pd_nsigma=0, |
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| 168 | psi_pd=30, psi_pd_n=1, psi_pd_nsigma=0, |
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| 169 | ) |
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| 170 | |
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| 171 | # SET THE FITTING PARAMETERS |
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| 172 | model.radius_equat_minor.range(15, 1000) |
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| 173 | model.radius_equat_major.range(15, 1000) |
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| 174 | #model.radius_polar.range(15, 1000) |
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| 175 | #model.background.range(0,1000) |
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| 176 | #model.theta_pd.range(0, 360) |
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| 177 | #model.phi_pd.range(0, 360) |
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| 178 | #model.psi_pd.range(0, 360) |
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| 179 | |
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| 180 | else: |
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| 181 | print "No parameters for %s"%name |
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| 182 | sys.exit(1) |
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| 183 | |
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| 184 | model.cutoff = cutoff |
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| 185 | M = Experiment(data=data, model=model) |
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| 186 | if section == "both": |
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| 187 | tan_model = Model(model.sasmodel, **model.parameters()) |
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| 188 | tan_model.phi = model.phi - 90 |
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| 189 | tan_model.cutoff = cutoff |
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| 190 | tan_M = Experiment(data=tan_data, model=tan_model) |
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| 191 | problem = FitProblem([M, tan_M]) |
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| 192 | else: |
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| 193 | problem = FitProblem(M) |
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