#if !defined(sphere_h)
#define sphere_h
#include "parameters.hh"
/**
* Structure definition for sphere parameters
*/
//[PYTHONCLASS] = SphereModel
//[DISP_PARAMS] = radius
//[DESCRIPTION] =P(q)=(scale/V)*[3V(sldSph-sldSolv)*(sin(qR)-qRcos(qR))
// /(qR)^3]^(2)+bkg
//
// bkg:background, R: radius of sphere
// V:The volume of the scatter
// sldSph: the SLD of the sphere
// sldSolv: the SLD of the solvent
//
//
//[FIXED]= radius.width
//[ORIENTATION_PARAMS]=
class SphereModel{
public:
// Model parameters
/// Scale factor
// [DEFAULT]=scale= 1.0
Parameter scale;
/// Radius of sphere [A]
// [DEFAULT]=radius=60.0 [A]
Parameter radius;
/// sldSph [1/A^(2)]
// [DEFAULT]=sldSph= 2.0e-6 [1/A^(2)]
Parameter sldSph;
/// sldSolv [1/A^(2)]
// [DEFAULT]=sldSolv= 1.0e-6 [1/A^(2)]
Parameter sldSolv;
/// Incoherent Background [1/cm]
// [DEFAULT]=background=0 [1/cm]
Parameter background;
// Constructor
SphereModel();
// Operators to get I(Q)
double operator()(double q);
double operator()(double qx, double qy);
double calculate_ER();
double evaluate_rphi(double q, double phi);
};
#endif