1 | #ifndef _H_Beam_
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2 | #define _H_Beam_
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3 |
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4 | /*
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5 | ---- Hector the simulator ----
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6 | A fast simulator of particles through generic beamlines.
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7 | J. de Favereau, X. Rouby ~~~ hector_devel@cp3.phys.ucl.ac.be
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8 |
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9 | http://www.fynu.ucl.ac.be/hector.html
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10 |
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11 | Centre de Physique des Particules et de Phénoménologie (CP3)
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12 | Université Catholique de Louvain (UCL)
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13 | */
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14 |
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15 | /// \file H_Beam.h
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16 | /// \brief Describes a set a particles as a beam
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17 | ///
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18 |
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19 | // c++ #includes
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20 | //#include <iostream>
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21 | #include <vector>
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22 | #include <sstream>
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23 | #include <cmath>
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24 |
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25 | // ROOT #includes
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26 | #include "TH2F.h"
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27 | #include "TGraphErrors.h"
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28 | #include "TMultiGraph.h"
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29 |
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30 | // local #includes
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31 | #include "H_BeamParticle.h"
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32 | #include "H_AbstractBeamLine.h"
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33 | #include "H_Parameters.h"
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34 | #include "H_OpticalElement.h"
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35 | using namespace std;
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36 |
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37 | /// \brief Beam made from a STL vector of H_BeamParticle.
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38 | ///
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39 | /// Example of usage :
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40 | /// <PRE>
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41 | /// H_Beam mybeam;
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42 | /// mybeam.createBeamParticles(100);
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43 | /// H_AbstractBeamLine * beamline = new H_AbstractBeamLine(200);
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44 | /// ... (<-- fills the beam)
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45 | /// mybeam.computePath(beamline)
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46 | /// </PRE>
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47 | class H_Beam {
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48 |
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49 | public:
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50 | /// Constructors, destructor and operator
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51 | //@{
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52 | H_Beam();
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53 | H_Beam(const H_Beam&);
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54 | H_Beam& operator=(const H_Beam&);
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55 | ~H_Beam();
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56 | //@}
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57 | /// Fills the beam with particles in given position/angle/energy intervals (flat distribution)
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58 | //void particleGun(const unsigned int Number_of_particles, const float E_min, const float E_max, const float fs_min, const float fs_max, const float fx_min, const float fx_max, const float fy_min, const float fy_max, const float tx_min, const float tx_max, const float ty_min, const float ty_max, const float p_mass, const double p_charge);
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59 | void particleGun(const unsigned int Number_of_particles, const float E_min=BE, const float E_max=BE, const float fs_min=0, const float fs_max=0, const float fx_min=0, const float fx_max=0, const float fy_min=0, const float fy_max=0, const float tx_min=-pi/2., const float tx_max=pi/2., const float ty_min=-pi/2., const float ty_max=pi/2., const float p_mass=MP, const double p_charge=QP, const bool flat = true);
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60 |
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61 | /// Fills the beam with particles
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62 | //@{
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63 | void createBeamParticles(const unsigned int , const double , const double );
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64 | void createBeamParticles(const unsigned int);
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65 | //@}
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66 | /// Fills the beam with particles with incremental offset and no initial transverse momentum
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67 | //@{
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68 | void createXScanningBeamParticles(const unsigned int, const float);
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69 | void createYScanningBeamParticles(const unsigned int, const float);
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70 | //@}
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71 | /// Fills the beam with particles with incremental initial angle and no offset.
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72 | //@{
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73 | void createTXScanningBeamParticles(const unsigned int, const float);
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74 | void createTYScanningBeamParticles(const unsigned int, const float);
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75 | //@}
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76 | /// Returns the ith particle
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77 | //@{
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78 | const H_BeamParticle * getBeamParticle(const unsigned int ) const;
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79 | H_BeamParticle * getBeamParticle(const unsigned int );
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80 | //@}
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81 | /// Adds a particle to the beam
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82 | void add(const H_BeamParticle&);
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83 | /// Compute the position of each particle in the beamline
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84 | //@{
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85 | void computePath(const H_AbstractBeamLine *, const bool);
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86 | void computePath(const H_AbstractBeamLine *);
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87 | //@}
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88 | // Photon emission by the particle
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89 | // @{
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90 | void emitGamma(const double, const double, const double, const double);
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91 | void emitGamma(const double, const double);
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92 | //@}
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93 | // Propagates the beam until a given s
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94 | void propagate(const float );
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95 | /// Returns the \f$ \beta \f$ function of the beam
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96 | //@{
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97 | float getBetaX(const float , float& );
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98 | float getBetaY(const float , float& );
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99 | //@}
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100 | /// Draws the \f$ \beta \f$ function of the beam
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101 | //@{
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102 | TGraphErrors * getBetaX(const float, const unsigned int);
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103 | TGraphErrors * getBetaY(const float, const unsigned int);
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104 | //@}
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105 | /// Returns the position of the beam
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106 | //@{
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107 | float getX(const float , float& );
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108 | float getY(const float , float& );
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109 | //@}
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110 | /// Returns the emittance \f$ \epsilon \f$ of the beam in x and y
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111 | //@{
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112 | inline const float getEmittanceX() const {
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113 | if(!x_disp*tx_disp) cout<<"Warning : Degenerate Beam : x-emittance = 0"<<endl;
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114 | return x_disp * tan(tx_disp/URAD)/URAD;
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115 | }
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116 | inline const float getEmittanceY() const {
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117 | if(!y_disp*ty_disp) cout<<"Warning : Degenerate Beam : y-emittance = 0"<<endl;
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118 | return y_disp * tan(ty_disp/URAD)/URAD;
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119 | }
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120 | //@}
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121 | /// Sets the initial parameters of the beam \f$ s , x , y , \theta_x , \theta_y \f$
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122 | //@{
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123 | void setS(const float fs) { fs_ini = fs;}
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124 | void setX(const float fx) { fx_ini = fx;}
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125 | void setY(const float fy) { fy_ini = fy;}
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126 | void setTX(const float tx) { tx_ini = tx;}
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127 | void setTY(const float ty) { ty_ini = ty;}
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128 | void setE(const float fe) {fe_ini = fe;}
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129 | void setPosition(const float fx, const float fy, const float tx, const float ty, const float fs) {setS(fs); setX(fx); setY(fy); setTX(tx); setTY(ty);}
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130 | //@}
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131 | /// Sets the initial divergence of the beam \f$ \sigma_x , \sigma_y , \sigma (\theta_x), \sigma(\theta_y) \f$
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132 | //@{
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133 | void setDS(const float ds) {s_disp = ds;}
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134 | void setDX(const float dx) {x_disp = dx;}
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135 | void setDY(const float dy) {y_disp = dy;}
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136 | void setDTX(const float dtx) {tx_disp = dtx;}
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137 | void setDTY(const float dty) {ty_disp = dty;}
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138 | void setDE(const float de) {e_disp = de;}
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139 | void setDispersion(const float dx, const float dy, const float dtx, const float dty, const float ds) {setDS(ds); setDX(dx); setDY(dy); setDTX(dtx); setDTY(dty);}
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140 | //@}
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141 | /// Returns the number of particles which have been stopped
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142 | unsigned int getStoppedNumber(const H_AbstractBeamLine *);
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143 | /// Returns the list of the stopping elements in the beamline
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144 | vector<TVectorD> getStoppingElements(const H_AbstractBeamLine *, vector<H_OpticalElement>&, vector<int>&);
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145 | /// Prints the initial parameters
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146 | void printInitialState() const;
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147 | /// Prints the properties for each particle
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148 | void printProperties() const;
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149 | /// Prints the list of the stopping elements in the beamline
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150 | void printStoppingElements(const vector<H_OpticalElement>&, const vector<int>&) const;
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151 | /// Returns the number of particle is this beam
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152 | const int getNumberOfBeamParticles() const {return Nparticles;}
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153 | /// Draws the beam profile at a given s
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154 | TH2F * drawProfile(const float);
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155 | TH2F * drawAngleProfile(const float);
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156 | /// Draws the beam width and height
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157 | //@{
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158 | TMultiGraph * drawBeamX(const int) const;
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159 | TMultiGraph * drawBeamY(const int) const ;
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160 | //@}
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161 |
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162 | protected:
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163 | /// List of particles
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164 | vector<H_BeamParticle> beamParticles;
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165 | /// IP position
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166 | //@{
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167 | float fx_ini, fy_ini, fs_ini;
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168 | //@}
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169 | /// IP \f$ \theta \f$ (angular) position
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170 | //@{
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171 | float tx_ini, ty_ini;
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172 | //@}
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173 | /// nominal beam energy
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174 | float fe_ini;
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175 | /// dispersion in position
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176 | //@{
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177 | float x_disp, y_disp, s_disp;
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178 | //@}
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179 | /// dispersion in \f$ \theta \f$
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180 | //@{
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181 | float tx_disp, ty_disp;
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182 | //@}
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183 | /// dispersion in energy
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184 | float e_disp;
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185 | /// Number of particles in this beam
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186 | unsigned int Nparticles;
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187 |
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188 | static const float pi = 3.14159265358979312;
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189 | };
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190 |
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191 | #endif
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