1 | double Iq(double q, double case_num, |
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2 | double Na, double Phia, double va, double a_sld, double ba, |
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3 | double Nb, double Phib, double vb, double b_sld, double bb, |
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4 | double Nc, double Phic, double vc, double c_sld, double bc, |
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5 | double Nd, double Phid, double vd, double d_sld, double bd, |
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6 | double Kab, double Kac, double Kad, |
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7 | double Kbc, double Kbd, double Kcd |
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8 | ); |
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9 | |
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10 | double Iqxy(double qx, double qy, double case_num, |
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11 | double Na, double Phia, double va, double a_sld, double ba, |
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12 | double Nb, double Phib, double vb, double b_sld, double bb, |
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13 | double Nc, double Phic, double vc, double c_sld, double bc, |
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14 | double Nd, double Phid, double vd, double d_sld, double bd, |
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15 | double Kab, double Kac, double Kad, |
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16 | double Kbc, double Kbd, double Kcd |
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17 | ); |
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18 | |
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19 | double form_volume(void); |
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20 | |
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21 | double form_volume(void) |
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22 | { |
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23 | return 1.0; |
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24 | } |
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25 | |
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26 | double Iq(double q, double case_num, |
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27 | double Na, double Phia, double va, double La, double ba, |
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28 | double Nb, double Phib, double vb, double Lb, double bb, |
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29 | double Nc, double Phic, double vc, double Lc, double bc, |
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30 | double Nd, double Phid, double vd, double Ld, double bd, |
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31 | double Kab, double Kac, double Kad, |
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32 | double Kbc, double Kbd, double Kcd |
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33 | ) { |
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34 | int icase = (int)case_num; |
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35 | |
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36 | #if 0 // Sasview defaults |
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37 | if (icase <= 1) { |
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38 | Na=Nb=1000.0; |
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39 | Phia=Phib=0.0000001; |
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40 | Kab=Kac=Kad=Kbc=Kbd=-0.0004; |
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41 | La=Lb=1e-12; |
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42 | va=vb=100.0; |
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43 | ba=bb=5.0; |
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44 | } else if (icase <= 4) { |
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45 | Phia=0.0000001; |
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46 | Kab=Kac=Kad=-0.0004; |
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47 | La=1e-12; |
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48 | va=100.0; |
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49 | ba=5.0; |
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50 | } |
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51 | #else |
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52 | if (icase <= 1) { |
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53 | Na=Nb=0.0; |
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54 | Phia=Phib=0.0; |
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55 | Kab=Kac=Kad=Kbc=Kbd=0.0; |
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56 | La=Lb=Ld; |
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57 | va=vb=vd; |
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58 | ba=bb=0.0; |
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59 | } else if (icase <= 4) { |
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60 | Na = 0.0; |
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61 | Phia=0.0; |
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62 | Kab=Kac=Kad=0.0; |
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63 | La=Ld; |
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64 | va=vd; |
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65 | ba=0.0; |
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66 | } |
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67 | #endif |
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68 | |
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69 | const double Xa = q*q*ba*ba*Na/6.0; |
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70 | const double Xb = q*q*bb*bb*Nb/6.0; |
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71 | const double Xc = q*q*bc*bc*Nc/6.0; |
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72 | const double Xd = q*q*bd*bd*Nd/6.0; |
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73 | |
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74 | // limit as Xa goes to 0 is 1 |
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75 | const double Pa = Xa==0 ? 1.0 : -expm1(-Xa)/Xa; |
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76 | const double Pb = Xb==0 ? 1.0 : -expm1(-Xb)/Xb; |
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77 | const double Pc = Xc==0 ? 1.0 : -expm1(-Xc)/Xc; |
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78 | const double Pd = Xd==0 ? 1.0 : -expm1(-Xd)/Xd; |
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79 | |
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80 | // limit as Xa goes to 0 is 1 |
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81 | const double Paa = Xa==0 ? 1.0 : 2.0*(1.0-Pa)/Xa; |
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82 | const double Pbb = Xb==0 ? 1.0 : 2.0*(1.0-Pb)/Xb; |
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83 | const double Pcc = Xc==0 ? 1.0 : 2.0*(1.0-Pc)/Xc; |
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84 | const double Pdd = Xd==0 ? 1.0 : 2.0*(1.0-Pd)/Xd; |
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85 | |
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86 | |
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87 | // Note: S0ij only defined for copolymers; otherwise set to zero |
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88 | // 0: C/D binary mixture |
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89 | // 1: C-D diblock copolymer |
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90 | // 2: B/C/D ternery mixture |
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91 | // 3: B/C-D binary mixture,1 homopolymer, 1 diblock copolymer |
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92 | // 4: B-C-D triblock copolymer |
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93 | // 5: A/B/C/D quaternary mixture |
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94 | // 6: A/B/C-D ternery mixture, 2 homopolymer, 1 diblock copolymer |
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95 | // 7: A/B-C-D binary mixture, 1 homopolymer, 1 triblock copolymer |
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96 | // 8: A-B/C-D binary mixture, 2 diblock copolymer |
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97 | // 9: A-B-C-D tetra-block copolymer |
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98 | #if 0 |
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99 | const double S0aa = icase<5 |
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100 | ? 1.0 : Na*Phia*va*Paa; |
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101 | const double S0bb = icase<2 |
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102 | ? 1.0 : Nb*Phib*vb*Pbb; |
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103 | const double S0cc = Nc*Phic*vc*Pcc; |
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104 | const double S0dd = Nd*Phid*vd*Pdd; |
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105 | const double S0ab = icase<8 |
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106 | ? 0.0 : sqrt(Na*va*Phia*Nb*vb*Phib)*Pa*Pb; |
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107 | const double S0ac = icase<9 |
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108 | ? 0.0 : sqrt(Na*va*Phia*Nc*vc*Phic)*Pa*Pc*exp(-Xb); |
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109 | const double S0ad = icase<9 |
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110 | ? 0.0 : sqrt(Na*va*Phia*Nd*vd*Phid)*Pa*Pd*exp(-Xb-Xc); |
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111 | const double S0bc = (icase!=4 && icase!=7 && icase!= 9) |
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112 | ? 0.0 : sqrt(Nb*vb*Phib*Nc*vc*Phic)*Pb*Pc; |
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113 | const double S0bd = (icase!=4 && icase!=7 && icase!= 9) |
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114 | ? 0.0 : sqrt(Nb*vb*Phib*Nd*vd*Phid)*Pb*Pd*exp(-Xc); |
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115 | const double S0cd = (icase==0 || icase==2 || icase==5) |
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116 | ? 0.0 : sqrt(Nc*vc*Phic*Nd*vd*Phid)*Pc*Pd; |
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117 | #else // sasview equivalent |
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118 | //printf("Xc=%g, S0cc=%g*%g*%g*%g\n",Xc,Nc,Phic,vc,Pcc); |
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119 | double S0aa = Na*Phia*va*Paa; |
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120 | double S0bb = Nb*Phib*vb*Pbb; |
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121 | double S0cc = Nc*Phic*vc*Pcc; |
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122 | double S0dd = Nd*Phid*vd*Pdd; |
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123 | double S0ab = sqrt(Na*va*Phia*Nb*vb*Phib)*Pa*Pb; |
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124 | double S0ac = sqrt(Na*va*Phia*Nc*vc*Phic)*Pa*Pc*exp(-Xb); |
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125 | double S0ad = sqrt(Na*va*Phia*Nd*vd*Phid)*Pa*Pd*exp(-Xb-Xc); |
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126 | double S0bc = sqrt(Nb*vb*Phib*Nc*vc*Phic)*Pb*Pc; |
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127 | double S0bd = sqrt(Nb*vb*Phib*Nd*vd*Phid)*Pb*Pd*exp(-Xc); |
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128 | double S0cd = sqrt(Nc*vc*Phic*Nd*vd*Phid)*Pc*Pd; |
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129 | switch(icase){ |
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130 | case 0: |
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131 | S0aa=0.000001; |
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132 | S0ab=0.000002; |
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133 | S0ac=0.000003; |
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134 | S0ad=0.000004; |
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135 | S0bb=0.000005; |
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136 | S0bc=0.000006; |
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137 | S0bd=0.000007; |
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138 | S0cd=0.000008; |
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139 | break; |
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140 | case 1: |
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141 | S0aa=0.000001; |
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142 | S0ab=0.000002; |
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143 | S0ac=0.000003; |
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144 | S0ad=0.000004; |
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145 | S0bb=0.000005; |
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146 | S0bc=0.000006; |
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147 | S0bd=0.000007; |
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148 | break; |
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149 | case 2: |
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150 | S0aa=0.000001; |
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151 | S0ab=0.000002; |
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152 | S0ac=0.000003; |
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153 | S0ad=0.000004; |
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154 | S0bc=0.000005; |
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155 | S0bd=0.000006; |
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156 | S0cd=0.000007; |
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157 | break; |
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158 | case 3: |
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159 | S0aa=0.000001; |
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160 | S0ab=0.000002; |
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161 | S0ac=0.000003; |
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162 | S0ad=0.000004; |
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163 | S0bc=0.000005; |
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164 | S0bd=0.000006; |
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165 | break; |
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166 | case 4: |
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167 | S0aa=0.000001; |
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168 | S0ab=0.000002; |
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169 | S0ac=0.000003; |
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170 | S0ad=0.000004; |
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171 | break; |
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172 | case 5: |
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173 | S0ab=0.000001; |
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174 | S0ac=0.000002; |
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175 | S0ad=0.000003; |
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176 | S0bc=0.000004; |
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177 | S0bd=0.000005; |
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178 | S0cd=0.000006; |
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179 | break; |
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180 | case 6: |
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181 | S0ab=0.000001; |
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182 | S0ac=0.000002; |
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183 | S0ad=0.000003; |
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184 | S0bc=0.000004; |
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185 | S0bd=0.000005; |
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186 | break; |
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187 | case 7: |
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188 | S0ab=0.000001; |
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189 | S0ac=0.000002; |
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190 | S0ad=0.000003; |
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191 | break; |
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192 | case 8: |
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193 | S0ac=0.000001; |
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194 | S0ad=0.000002; |
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195 | S0bc=0.000003; |
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196 | S0bd=0.000004; |
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197 | break; |
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198 | default : //case 9: |
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199 | break; |
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200 | } |
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201 | #endif |
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202 | |
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203 | // eq 12a: \kappa_{ij}^F = \chi_{ij}^F - \chi_{i0}^F - \chi_{j0}^F |
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204 | const double Kaa = 0.0; |
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205 | const double Kbb = 0.0; |
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206 | const double Kcc = 0.0; |
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207 | //const double Kdd = 0.0; |
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208 | const double Zaa = Kaa - Kad - Kad; |
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209 | const double Zab = Kab - Kad - Kbd; |
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210 | const double Zac = Kac - Kad - Kcd; |
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211 | const double Zbb = Kbb - Kbd - Kbd; |
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212 | const double Zbc = Kbc - Kbd - Kcd; |
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213 | const double Zcc = Kcc - Kcd - Kcd; |
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214 | //printf("Za: %10.5g %10.5g %10.5g\n", Zaa, Zab, Zac); |
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215 | //printf("Zb: %10.5g %10.5g %10.5g\n", Zab, Zbb, Zbc); |
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216 | //printf("Zc: %10.5g %10.5g %10.5g\n", Zac, Zbc, Zcc); |
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217 | |
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218 | // T = inv(S0) |
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219 | const double DenT = (- S0ac*S0bb*S0ac + S0ab*S0bc*S0ac + S0ac*S0ab*S0bc |
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220 | - S0aa*S0bc*S0bc - S0ab*S0ab*S0cc + S0aa*S0bb*S0cc); |
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221 | const double T11 = (-S0bc*S0bc + S0bb*S0cc)/DenT; |
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222 | const double T12 = ( S0ac*S0bc - S0ab*S0cc)/DenT; |
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223 | const double T13 = (-S0ac*S0bb + S0ab*S0bc)/DenT; |
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224 | const double T22 = (-S0ac*S0ac + S0aa*S0cc)/DenT; |
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225 | const double T23 = ( S0ac*S0ab - S0aa*S0bc)/DenT; |
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226 | const double T33 = (-S0ab*S0ab + S0aa*S0bb)/DenT; |
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227 | |
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228 | //printf("T1: %10.5g %10.5g %10.5g\n", T11, T12, T13); |
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229 | //printf("T2: %10.5g %10.5g %10.5g\n", T12, T22, T23); |
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230 | //printf("T3: %10.5g %10.5g %10.5g\n", T13, T23, T33); |
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231 | |
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232 | // eq 18e: m = 1/(S0_{dd} - s0^T inv(S0) s0) |
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233 | const double ZZ = S0ad*(T11*S0ad + T12*S0bd + T13*S0cd) |
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234 | + S0bd*(T12*S0ad + T22*S0bd + T23*S0cd) |
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235 | + S0cd*(T13*S0ad + T23*S0bd + T33*S0cd); |
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236 | |
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237 | const double m=1.0/(S0dd-ZZ); |
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238 | |
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239 | // eq 18d: Y = inv(S0)s0 + e |
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240 | const double Y1 = T11*S0ad + T12*S0bd + T13*S0cd + 1.0; |
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241 | const double Y2 = T12*S0ad + T22*S0bd + T23*S0cd + 1.0; |
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242 | const double Y3 = T13*S0ad + T23*S0bd + T33*S0cd + 1.0; |
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243 | |
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244 | // N = mYY^T + \kappa^F |
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245 | const double N11 = m*Y1*Y1 + Zaa; |
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246 | const double N12 = m*Y1*Y2 + Zab; |
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247 | const double N13 = m*Y1*Y3 + Zac; |
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248 | const double N22 = m*Y2*Y2 + Zbb; |
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249 | const double N23 = m*Y2*Y3 + Zbc; |
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250 | const double N33 = m*Y3*Y3 + Zcc; |
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251 | |
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252 | //printf("N1: %10.5g %10.5g %10.5g\n", N11, N12, N13); |
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253 | //printf("N2: %10.5g %10.5g %10.5g\n", N12, N22, N23); |
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254 | //printf("N3: %10.5g %10.5g %10.5g\n", N13, N23, N33); |
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255 | //printf("S0a: %10.5g %10.5g %10.5g\n", S0aa, S0ab, S0ac); |
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256 | //printf("S0b: %10.5g %10.5g %10.5g\n", S0ab, S0bb, S0bc); |
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257 | //printf("S0c: %10.5g %10.5g %10.5g\n", S0ac, S0bc, S0cc); |
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258 | |
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259 | // M = I + S0 N |
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260 | const double Maa = N11*S0aa + N12*S0ab + N13*S0ac + 1.0; |
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261 | const double Mab = N11*S0ab + N12*S0bb + N13*S0bc; |
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262 | const double Mac = N11*S0ac + N12*S0bc + N13*S0cc; |
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263 | const double Mba = N12*S0aa + N22*S0ab + N23*S0ac; |
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264 | const double Mbb = N12*S0ab + N22*S0bb + N23*S0bc + 1.0; |
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265 | const double Mbc = N12*S0ac + N22*S0bc + N23*S0cc; |
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266 | const double Mca = N13*S0aa + N23*S0ab + N33*S0ac; |
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267 | const double Mcb = N13*S0ab + N23*S0bb + N33*S0bc; |
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268 | const double Mcc = N13*S0ac + N23*S0bc + N33*S0cc + 1.0; |
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269 | //printf("M1: %10.5g %10.5g %10.5g\n", Maa, Mab, Mac); |
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270 | //printf("M2: %10.5g %10.5g %10.5g\n", Mba, Mbb, Mbc); |
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271 | //printf("M3: %10.5g %10.5g %10.5g\n", Mca, Mcb, Mcc); |
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272 | |
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273 | // Q = inv(M) = inv(I + S0 N) |
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274 | const double DenQ = (+ Maa*Mbb*Mcc - Maa*Mbc*Mcb - Mab*Mba*Mcc |
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275 | + Mab*Mbc*Mca + Mac*Mba*Mcb - Mac*Mbb*Mca); |
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276 | |
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277 | const double Q11 = ( Mbb*Mcc - Mbc*Mcb)/DenQ; |
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278 | const double Q12 = (-Mab*Mcc + Mac*Mcb)/DenQ; |
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279 | const double Q13 = ( Mab*Mbc - Mac*Mbb)/DenQ; |
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280 | //const double Q21 = (-Mba*Mcc + Mbc*Mca)/DenQ; |
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281 | const double Q22 = ( Maa*Mcc - Mac*Mca)/DenQ; |
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282 | const double Q23 = (-Maa*Mbc + Mac*Mba)/DenQ; |
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283 | //const double Q31 = ( Mba*Mcb - Mbb*Mca)/DenQ; |
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284 | //const double Q32 = (-Maa*Mcb + Mab*Mca)/DenQ; |
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285 | const double Q33 = ( Maa*Mbb - Mab*Mba)/DenQ; |
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286 | |
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287 | //printf("Q1: %10.5g %10.5g %10.5g\n", Q11, Q12, Q13); |
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288 | //printf("Q2: %10.5g %10.5g %10.5g\n", Q21, Q22, Q23); |
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289 | //printf("Q3: %10.5g %10.5g %10.5g\n", Q31, Q32, Q33); |
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290 | // eq 18c: inv(S) = inv(S0) + mYY^T + \kappa^F |
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291 | // eq A1 in the appendix |
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292 | // To solve for S, use: |
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293 | // S = inv(inv(S^0) + N) inv(S^0) S^0 |
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294 | // = inv(S^0 inv(S^0) + N) S^0 |
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295 | // = inv(I + S^0 N) S^0 |
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296 | // = Q S^0 |
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297 | const double S11 = Q11*S0aa + Q12*S0ab + Q13*S0ac; |
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298 | const double S12 = Q12*S0aa + Q22*S0ab + Q23*S0ac; |
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299 | const double S13 = Q13*S0aa + Q23*S0ab + Q33*S0ac; |
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300 | const double S22 = Q12*S0ab + Q22*S0bb + Q23*S0bc; |
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301 | const double S23 = Q13*S0ab + Q23*S0bb + Q33*S0bc; |
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302 | const double S33 = Q13*S0ac + Q23*S0bc + Q33*S0cc; |
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303 | // If the full S is needed...it isn't since Ldd = (rho_d - rho_d) = 0 below |
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304 | //const double S14=-S11-S12-S13; |
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305 | //const double S24=-S12-S22-S23; |
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306 | //const double S34=-S13-S23-S33; |
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307 | //const double S44=S11+S22+S33 + 2.0*(S12+S13+S23); |
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308 | |
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309 | // eq 12 of Akcasu, 1990: I(q) = L^T S L |
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310 | // Note: eliminate cases without A and B polymers by setting Lij to 0 |
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311 | // Note: 1e-13 to convert from fm to cm for scattering length |
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312 | const double sqrt_Nav=sqrt(6.022045e+23) * 1.0e-13; |
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313 | const double Lad = icase<5 ? 0.0 : (La/va - Ld/vd)*sqrt_Nav; |
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314 | const double Lbd = icase<2 ? 0.0 : (Lb/vb - Ld/vd)*sqrt_Nav; |
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315 | const double Lcd = (Lc/vc - Ld/vd)*sqrt_Nav; |
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316 | |
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317 | const double result=Lad*Lad*S11 + Lbd*Lbd*S22 + Lcd*Lcd*S33 |
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318 | + 2.0*(Lad*Lbd*S12 + Lbd*Lcd*S23 + Lad*Lcd*S13); |
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319 | |
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320 | return result; |
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321 | |
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322 | } |
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323 | |
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324 | double Iqxy(double qx, double qy, |
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325 | double case_num, |
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326 | double Na, double Phia, double va, double a_sld, double ba, |
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327 | double Nb, double Phib, double vb, double b_sld, double bb, |
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328 | double Nc, double Phic, double vc, double c_sld, double bc, |
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329 | double Nd, double Phid, double vd, double d_sld, double bd, |
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330 | double Kab, double Kac, double Kad, |
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331 | double Kbc, double Kbd, double Kcd |
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332 | ) |
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333 | { |
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334 | double q = sqrt(qx*qx + qy*qy); |
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335 | return Iq(q, |
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336 | case_num, |
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337 | Na, Phia, va, a_sld, ba, |
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338 | Nb, Phib, vb, b_sld, bb, |
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339 | Nc, Phic, vc, c_sld, bc, |
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340 | Nd, Phid, vd, d_sld, bd, |
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341 | Kab, Kac, Kad, |
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342 | Kbc, Kbd, Kcd); |
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343 | } |
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