[503a972] | 1 | #if !defined(cylinder_h) |
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| 2 | #define cylinder_h |
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| 3 | #include "parameters.hh" |
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| 4 | |
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| 5 | /** Structure definition for cylinder parameters |
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| 6 | * [PYTHONCLASS] = CylinderModel |
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| 7 | * [DISP_PARAMS] = radius, length, cyl_theta, cyl_phi |
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| 8 | [DESCRIPTION] = <text> f(q)= 2*(sldCyl - sldSolv)*V*sin(qLcos(alpha/2)) |
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| 9 | /[qLcos(alpha/2)]*J1(qRsin(alpha/2))/[qRsin(alpha)] |
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| 10 | |
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| 11 | P(q,alpha)= scale/V*f(q)^(2)+bkg |
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| 12 | V: Volume of the cylinder |
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| 13 | R: Radius of the cylinder |
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| 14 | L: Length of the cylinder |
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| 15 | J1: The bessel function |
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| 16 | alpha: angle betweenthe axis of the |
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| 17 | cylinder and the q-vector for 1D |
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| 18 | :the ouput is P(q)=scale/V*integral |
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| 19 | from pi/2 to zero of... |
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| 20 | f(q)^(2)*sin(alpha)*dalpha+ bkg |
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| 21 | </text> |
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| 22 | [FIXED]= <text>cyl_phi.width; cyl_theta.width; length.width;radius.width</text> |
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[318b5bbb] | 23 | [ORIENTATION_PARAMS]= <text>cyl_phi; cyl_theta; cyl_phi.width; cyl_theta.width;M0_sld_cyl; M_theta_cyl; M_phi_cyl;M0_sld_solv; M_theta_solv; M_phi_solv; Up_frac_i; Up_frac_f; Up_theta;</text> |
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| 24 | [MAGNETIC_PARAMS]= <text> M0_sld_cyl; M_theta_cyl; M_phi_cyl; M0_sld_solv; M_theta_solv; M_phi_solv; Up_frac_i; Up_frac_f; Up_theta; </text> |
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[503a972] | 25 | |
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| 26 | **/ |
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| 27 | class CylinderModel{ |
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| 28 | public: |
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| 29 | // Model parameters |
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| 30 | |
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| 31 | /// Scale factor |
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| 32 | // [DEFAULT]=scale=1.0 |
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| 33 | Parameter scale; |
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| 34 | |
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| 35 | /// Radius of the cylinder [A] |
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| 36 | // [DEFAULT]=radius=20.0 [A] |
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| 37 | Parameter radius; |
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| 38 | |
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| 39 | /// Length of the cylinder [A] |
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| 40 | // [DEFAULT]=length=400.0 [A] |
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| 41 | Parameter length; |
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| 42 | |
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| 43 | /// Contrast [1/A^(2)] |
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| 44 | // [DEFAULT]=sldCyl=4.0e-6 [1/A^(2)] |
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| 45 | Parameter sldCyl; |
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| 46 | |
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| 47 | /// sldCyl [1/A^(2)] |
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| 48 | // [DEFAULT]=sldSolv=1.0e-6 [1/A^(2)] |
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| 49 | Parameter sldSolv; |
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| 50 | |
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| 51 | /// Incoherent Background [1/cm] 0.00 |
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| 52 | // [DEFAULT]=background=0.0 [1/cm] |
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| 53 | Parameter background; |
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| 54 | |
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| 55 | /// Orientation of the cylinder axis w/respect incoming beam [deg] |
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| 56 | // [DEFAULT]=cyl_theta=60.0 [deg] |
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| 57 | Parameter cyl_theta; |
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| 58 | |
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| 59 | /// Orientation of the cylinder in the plane of the detector [deg] |
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| 60 | // [DEFAULT]=cyl_phi=60.0 [deg] |
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| 61 | Parameter cyl_phi; |
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| 62 | |
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[318b5bbb] | 63 | /// M0_sld_cyl |
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| 64 | // [DEFAULT]=M0_sld_cyl=0.0e-6 [1/A^(2)] |
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| 65 | Parameter M0_sld_cyl; |
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| 66 | |
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| 67 | /// M_theta_cyl |
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| 68 | // [DEFAULT]=M_theta_cyl=0.0 [deg] |
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| 69 | Parameter M_theta_cyl; |
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| 70 | |
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| 71 | /// M_phi_cyl |
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| 72 | // [DEFAULT]=M_phi_cyl=0.0 [deg] |
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| 73 | Parameter M_phi_cyl; |
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| 74 | |
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| 75 | /// M0_sld_solv |
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| 76 | // [DEFAULT]=M0_sld_solv=0.0e-6 [1/A^(2)] |
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| 77 | Parameter M0_sld_solv; |
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| 78 | |
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| 79 | /// M_theta_solv |
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| 80 | // [DEFAULT]=M_theta_solv=0.0 [deg] |
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| 81 | Parameter M_theta_solv; |
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| 82 | |
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| 83 | /// M_phi_solv |
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| 84 | // [DEFAULT]=M_phi_solv=0.0 [deg] |
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| 85 | Parameter M_phi_solv; |
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| 86 | |
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| 87 | /// Up_frac_i |
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| 88 | // [DEFAULT]=Up_frac_i=0.5 [u/(u+d)] |
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| 89 | Parameter Up_frac_i; |
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| 90 | |
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| 91 | /// Up_frac_f |
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| 92 | // [DEFAULT]=Up_frac_f=0.5 [u/(u+d)] |
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| 93 | Parameter Up_frac_f; |
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| 94 | |
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| 95 | /// Up_theta |
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| 96 | // [DEFAULT]=Up_theta=0.0 [deg] |
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| 97 | Parameter Up_theta; |
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| 98 | |
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[503a972] | 99 | // Constructor |
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| 100 | CylinderModel(); |
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| 101 | |
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| 102 | // Operators to get I(Q) |
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| 103 | double operator()(double q); |
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| 104 | double operator()(double qx, double qy); |
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| 105 | double calculate_ER(); |
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[6319646] | 106 | double calculate_VR(); |
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[503a972] | 107 | double evaluate_rphi(double q, double phi); |
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| 108 | }; |
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| 109 | |
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| 110 | #endif |
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