source: sasview/sansmodels/src/sans/models/c_extensions/triaxial_ellipsoid.c @ d6da3b1

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Last change on this file since d6da3b1 was 4628e31, checked in by Jae Cho <jhjcho@…>, 14 years ago

changed the unit of angles into degrees

  • Property mode set to 100644
File size: 4.3 KB
RevLine 
[5068697]1/**
2 * Scattering model for a cylinder
3 * @author: Mathieu Doucet / UTK
4 */
5
6#include "triaxial_ellipsoid.h"
7#include <math.h>
8#include "libCylinder.h"
9#include <stdio.h>
10#include <stdlib.h>
11
12
13/**
14 * Function to evaluate 1D scattering function
15 * @param pars: parameters of the triaxial ellipsoid
16 * @param q: q-value
17 * @return: function value
18 */
19double triaxial_ellipsoid_analytical_1D(TriaxialEllipsoidParameters *pars, double q) {
[13eb1c4]20        double dp[7];
[975ec8e]21
[5068697]22        // Fill paramater array
23        dp[0] = pars->scale;
24        dp[1] = pars->semi_axisA;
25        dp[2] = pars->semi_axisB;
26        dp[3] = pars->semi_axisC;
[13eb1c4]27        dp[4] = pars->sldEll;
28        dp[5] = pars->sldSolv;
29        dp[6] = pars->background;
[975ec8e]30
[5068697]31        // Call library function to evaluate model
[975ec8e]32        return TriaxialEllipsoid(dp, q);
33}
34
35double triaxial_ellipsoid_kernel(TriaxialEllipsoidParameters *pars, double q, double alpha, double nu) {
36        double t,a,b,c;
37        double kernel;
[3c102d4]38        double pi = 4.0*atan(1.0);
[975ec8e]39
40        a = pars->semi_axisA ;
41        b = pars->semi_axisB ;
42        c = pars->semi_axisC ;
43
44        t = q * sqrt(a*a*cos(nu)*cos(nu)+b*b*sin(nu)*sin(nu)*sin(alpha)*sin(alpha)+c*c*cos(alpha)*cos(alpha));
[3c102d4]45        if (t==0.0){
[975ec8e]46                kernel  = 1.0;
47        }else{
[3c102d4]48                kernel  = 3.0*(sin(t)-t*cos(t))/(t*t*t);
[975ec8e]49        }
50        return kernel*kernel;
[5068697]51}
52
[975ec8e]53
[5068697]54/**
55 * Function to evaluate 2D scattering function
56 * @param pars: parameters of the triaxial ellipsoid
57 * @param q: q-value
58 * @return: function value
59 */
60double triaxial_ellipsoid_analytical_2DXY(TriaxialEllipsoidParameters *pars, double qx, double qy) {
61        double q;
62        q = sqrt(qx*qx+qy*qy);
63    return triaxial_ellipsoid_analytical_2D_scaled(pars, q, qx/q, qy/q);
[975ec8e]64}
[5068697]65
66
67/**
68 * Function to evaluate 2D scattering function
69 * @param pars: parameters of the triaxial ellipsoid
70 * @param q: q-value
71 * @param phi: angle phi
72 * @return: function value
73 */
74double triaxial_ellipsoid_analytical_2D(TriaxialEllipsoidParameters *pars, double q, double phi) {
75    return triaxial_ellipsoid_analytical_2D_scaled(pars, q, cos(phi), sin(phi));
[975ec8e]76}
77
[5068697]78/**
79 * Function to evaluate 2D scattering function
80 * @param pars: parameters of the triaxial ellipsoid
81 * @param q: q-value
82 * @param q_x: q_x / q
83 * @param q_y: q_y / q
84 * @return: function value
85 */
86double triaxial_ellipsoid_analytical_2D_scaled(TriaxialEllipsoidParameters *pars, double q, double q_x, double q_y) {
[975ec8e]87        double cyl_x, cyl_y, cyl_z, ell_x, ell_y;
[5068697]88        double q_z;
[975ec8e]89        double cos_nu,nu;
[5068697]90        double alpha, vol, cos_val;
91        double answer;
[4628e31]92    double pi = 4.0*atan(1.0);
93
94        //convert angle degree to radian
95        double theta = pars->axis_theta * pi/180.0;
96        double phi = pars->axis_phi * pi/180.0;
97        double psi = pars->axis_psi * pi/180.0;
98
[5068697]99    // Cylinder orientation
[4628e31]100    cyl_x = sin(theta) * cos(phi);
101    cyl_y = sin(theta) * sin(phi);
102    cyl_z = cos(theta);
[975ec8e]103
[5068697]104    // q vector
[8f20419d]105    q_z = 0.0;
[975ec8e]106
107        //dx = 1.0;
108        //dy = 1.0;
[5068697]109    // Compute the angle btw vector q and the
110    // axis of the cylinder
111    cos_val = cyl_x*q_x + cyl_y*q_y + cyl_z*q_z;
[975ec8e]112
[5068697]113    // The following test should always pass
114    if (fabs(cos_val)>1.0) {
115        printf("cyl_ana_2D: Unexpected error: cos(alpha)>1\n");
116        return 0;
117    }
[975ec8e]118
[5068697]119    // Note: cos(alpha) = 0 and 1 will get an
120    // undefined value from CylKernel
121        alpha = acos( cos_val );
[975ec8e]122
123    //ellipse orientation:
124        // the elliptical corss section was transformed and projected
125        // into the detector plane already through sin(alpha)and furthermore psi remains as same
126        // on the detector plane.
127        // So, all we need is to calculate the angle (nu) of the minor axis of the ellipse wrt
128        // the wave vector q.
129
130        //x- y- component on the detector plane.
[4628e31]131    ell_x =  cos(psi);
132    ell_y =  sin(psi);
[975ec8e]133
134    // calculate the axis of the ellipse wrt q-coord.
135    cos_nu = ell_x*q_x + ell_y*q_y;
136    nu = acos(cos_nu);
137
[5068697]138        // Call the IGOR library function to get the kernel
[975ec8e]139        answer = triaxial_ellipsoid_kernel(pars, q, alpha, nu);
140
[5068697]141        // Multiply by contrast^2
[13eb1c4]142        answer *= (pars->sldEll- pars->sldSolv)*(pars->sldEll- pars->sldSolv);
[975ec8e]143
[5068697]144        //normalize by cylinder volume
145        //NOTE that for this (Fournet) definition of the integral, one must MULTIPLY by Vcyl
[3c102d4]146    vol = 4.0* pi/3.0  * pars->semi_axisA * pars->semi_axisB * pars->semi_axisC;
[5068697]147        answer *= vol;
148        //convert to [cm-1]
149        answer *= 1.0e8;
150        //Scale
151        answer *= pars->scale;
[975ec8e]152
[5068697]153        // add in the background
154        answer += pars->background;
[975ec8e]155
[5068697]156        return answer;
157}
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