[4605bf10] | 1 | static double form_volume( |
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[391ea92] | 2 | int n_shells, |
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[54bcd4a] | 3 | double thickness[], |
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| 4 | double interface[]) |
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[391ea92] | 5 | { |
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[54bcd4a] | 6 | double r = 0.0; |
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| 7 | for (int i=0; i < n_shells; i++) { |
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| 8 | r += thickness[i] + interface[i]; |
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[391ea92] | 9 | } |
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| 10 | return M_4PI_3*cube(r); |
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| 11 | } |
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| 12 | |
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[54bcd4a] | 13 | static double blend(int shape, double nu, double z) |
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| 14 | { |
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| 15 | if (shape==0) { |
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| 16 | const double num = sas_erf(nu * M_SQRT1_2 * (2.0*z - 1.0)); |
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| 17 | const double denom = 2.0 * sas_erf(nu * M_SQRT1_2); |
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| 18 | return num/denom + 0.5; |
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| 19 | } else if (shape==1) { |
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| 20 | return pow(z, nu); |
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| 21 | } else if (shape==2) { |
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| 22 | return 1.0 - pow(1. - z, nu); |
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| 23 | } else if (shape==3) { |
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| 24 | return expm1(-nu*z)/expm1(-nu); |
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| 25 | } else if (shape==4) { |
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| 26 | return expm1(nu*z)/expm1(nu); |
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| 27 | } else { |
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| 28 | return NAN; |
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| 29 | } |
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| 30 | } |
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| 31 | |
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| 32 | static double f_linear(double q, double r, double contrast, double slope) |
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| 33 | { |
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| 34 | const double qr = q * r; |
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| 35 | const double qrsq = qr * qr; |
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[925ad6e] | 36 | const double bes = sas_3j1x_x(qr); |
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[54bcd4a] | 37 | double sinqr, cosqr; |
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| 38 | SINCOS(qr, sinqr, cosqr); |
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| 39 | const double fun = 3.0*r*(2.0*qr*sinqr - (qrsq-2.0)*cosqr)/(qrsq*qrsq); |
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| 40 | const double vol = M_4PI_3 * cube(r); |
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| 41 | return vol*(bes*contrast + fun*slope); |
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| 42 | } |
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[391ea92] | 43 | |
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[54bcd4a] | 44 | static double Iq( |
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[af0e70c] | 45 | double q, |
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| 46 | int n_shells, |
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| 47 | double sld_solvent, |
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[54bcd4a] | 48 | double sld[], |
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| 49 | double thickness[], |
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| 50 | double interface[], |
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| 51 | double shape[], |
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| 52 | double nu[], |
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| 53 | int n_steps) |
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| 54 | { |
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[af0e70c] | 55 | // iteration for # of shells + core + solvent |
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[54bcd4a] | 56 | double f=0.0; |
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| 57 | double r=0.0; |
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| 58 | for (int shell=0; shell<n_shells; shell++){ |
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| 59 | const double sld_l = sld[shell]; |
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| 60 | |
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| 61 | // uniform shell; r=0 => r^3=0 => f=0, so works for core as well. |
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[925ad6e] | 62 | f -= M_4PI_3 * cube(r) * sld_l * sas_3j1x_x(q*r); |
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[54bcd4a] | 63 | r += thickness[shell]; |
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[925ad6e] | 64 | f += M_4PI_3 * cube(r) * sld_l * sas_3j1x_x(q*r); |
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[54bcd4a] | 65 | |
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| 66 | // iterate over sub_shells in the interface |
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| 67 | const double dr = interface[shell]/n_steps; |
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| 68 | const double delta = (shell==n_shells-1 ? sld_solvent : sld[shell+1]) - sld_l; |
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| 69 | const double nu_shell = fmax(fabs(nu[shell]), 1.e-14); |
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| 70 | const int shape_shell = (int)(shape[shell]); |
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| 71 | |
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| 72 | // if there is no interface the equations don't work |
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| 73 | if (dr == 0.) continue; |
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| 74 | |
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| 75 | double sld_in = sld_l; |
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| 76 | for (int step=1; step <= n_steps; step++) { |
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| 77 | // find sld_i at the outer boundary of sub-shell step |
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| 78 | //const double z = (double)step/(double)n_steps; |
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| 79 | const double z = (double)step/(double)n_steps; |
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| 80 | const double fraction = blend(shape_shell, nu_shell, z); |
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| 81 | const double sld_out = fraction*delta + sld_l; |
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| 82 | // calculate slope |
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| 83 | const double slope = (sld_out - sld_in)/dr; |
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| 84 | const double contrast = sld_in - slope*r; |
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| 85 | |
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| 86 | // iteration for the left and right boundary of the shells |
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| 87 | f -= f_linear(q, r, contrast, slope); |
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| 88 | r += dr; |
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| 89 | f += f_linear(q, r, contrast, slope); |
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| 90 | sld_in = sld_out; |
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[391ea92] | 91 | } |
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| 92 | } |
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[54bcd4a] | 93 | // add in solvent effect |
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[925ad6e] | 94 | f -= M_4PI_3 * cube(r) * sld_solvent * sas_3j1x_x(q*r); |
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[7c20ba0] | 95 | |
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[54bcd4a] | 96 | const double f2 = f * f * 1.0e-4; |
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| 97 | return f2; |
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[391ea92] | 98 | } |
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| 99 | |
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