1 | #ifndef __MMcEvt__
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2 | #define __MMcEvt__
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3 |
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4 | #ifndef MARS_MParContainer
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5 | #include "MParContainer.h"
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6 | #endif
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7 |
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8 | class MMcEvt : public MParContainer
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9 | {
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10 | private:
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11 | UInt_t fEvtNumber;
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12 | UShort_t fPartId; // Type of particle
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13 | Float_t fEnergy; // [GeV] Energy
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14 | Float_t fThick0; // [g/cm2]
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15 | Float_t fFirstTarget; // []
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16 | Float_t fZFirstInteraction; // [cm]
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17 |
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18 | Float_t fTheta; // [rad] Theta angle of event
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19 | Float_t fPhi; // [rad] Phi angle of event (see class description)
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20 |
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21 | Float_t fCoreD; // [cm] Core d pos
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22 | Float_t fCoreX; // [cm] Core x pos
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23 | Float_t fCoreY; // [cm] Core y pos
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24 | Float_t fImpact; // [cm] impact parameter
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25 |
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26 | // Up to here, the info from the CORSIKA event header.
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27 |
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28 | // Telescope orientation:
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29 | Float_t fTelescopePhi; // [rad] (see class description)
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30 | Float_t fTelescopeTheta; // [rad]
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31 |
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32 | // Time of first and last photon:
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33 | Float_t fTimeFirst; // [ns]
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34 | Float_t fTimeLast; // [ns]
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35 |
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36 | // 6 parameters and chi2 of the NKG fit to the longitudinal
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37 | // particle distribution. See CORSIKA manual for explanation,
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38 | // section 4.42 "Longitudinal shower development":
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39 | //
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40 | Float_t fLongiNmax; // [particles]
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41 | Float_t fLongit0; // [g/cm2]
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42 | Float_t fLongitmax; // [g/cm2]
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43 | Float_t fLongia; // [g/cm2]
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44 | Float_t fLongib; // []
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45 | Float_t fLongic; // [cm2/g]
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46 | Float_t fLongichi2;
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47 |
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48 | UInt_t fPhotIni; // [ph] Initial number of photons
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49 | UInt_t fPassPhotAtm; // [ph] Passed atmosphere
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50 | UInt_t fPassPhotRef; // [ph] Passed reflector(reflectivity + effective area)
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51 | UInt_t fPassPhotCone; // [ph] Passed glas
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52 | UInt_t fPhotElfromShower; // [phe] Passed qe coming from the shower
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53 | UInt_t fPhotElinCamera; // [phe] usPhotElfromShower + mean of phe
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54 | // from NSB
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55 |
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56 | // Now follow the fraction of photons reaching the camera produced by
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57 | // electrons, muons and other particles respectively:
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58 |
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59 | Float_t fElecCphFraction;
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60 | Float_t fMuonCphFraction;
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61 | Float_t fOtherCphFraction;
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62 |
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63 |
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64 |
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65 | public:
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66 | MMcEvt() ;
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67 |
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68 | MMcEvt( UInt_t, UShort_t, Float_t, Float_t, Float_t,
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69 | Float_t, Float_t, Float_t, Float_t, Float_t, Float_t,
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70 | Float_t, Float_t, Float_t, Float_t, Float_t, Float_t,
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71 | Float_t, Float_t, Float_t, Float_t, Float_t, Float_t,
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72 | UInt_t, UInt_t, UInt_t, UInt_t, UInt_t, UInt_t,
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73 | Float_t, Float_t, Float_t) ;
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74 |
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75 | ~MMcEvt();
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76 |
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77 | void Clear(Option_t *opt=NULL);
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78 |
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79 | void Fill( UInt_t, UShort_t, Float_t, Float_t, Float_t,
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80 | Float_t, Float_t, Float_t, Float_t, Float_t, Float_t,
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81 | Float_t, Float_t, Float_t, Float_t, Float_t, Float_t,
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82 | Float_t, Float_t, Float_t, Float_t, Float_t, Float_t,
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83 | UInt_t, UInt_t, UInt_t, UInt_t, UInt_t, UInt_t,
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84 | Float_t, Float_t, Float_t) ;
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85 |
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86 | //virtual void AsciiWrite(ofstream &fout) const;
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87 |
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88 | void Print(Option_t *opt=NULL) const;
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89 |
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90 | UInt_t GetEvtNumber() const { return fEvtNumber; } //Get Event Number
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91 | Short_t GetPartId() const { return fPartId; } //Get Type of particle
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92 | Float_t GetEnergy() const { return fEnergy; } //Get Energy
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93 |
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94 | Float_t GetTheta() const { return fTheta; } //Get Theta angle
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95 | Float_t GetPhi() const { return fPhi ; } //Get Phi angle
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96 |
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97 | /* Float_t GetCoreD() { return fCoreD; } //Get Core d pos */
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98 | Float_t GetCoreX() { return fCoreX; } //Get Core x pos
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99 | Float_t GetCoreY() { return fCoreY; } //Get Core y pos
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100 | Float_t GetImpact() const { return fImpact;} //Get impact parameter
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101 |
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102 | UInt_t GetPhotIni() { return fPhotIni; } //Get Initial photons
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103 | UInt_t GetPassPhotAtm() { return fPassPhotAtm;} //Get Passed atmosphere
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104 | UInt_t GetPassPhotRef() { return fPassPhotRef; } //Get Passed reflector
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105 | UInt_t GetPassPhotCone() { return fPassPhotCone; } //Get Passed glas
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106 | UInt_t GetPhotElfromShower() { return fPhotElfromShower; } //Get Passed qe from shower
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107 | UInt_t GetPhotElinCamera() { return fPhotElinCamera; } //Get Passed qe total
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108 |
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109 | Float_t GetTelescopePhi() const { return fTelescopePhi; }
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110 | Float_t GetTelescopeTheta() const { return fTelescopeTheta; }
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111 | Float_t GetOtherCphFraction() const { return fOtherCphFraction; }
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112 |
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113 | Float_t GetLongiNmax() const { return fLongiNmax; }
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114 | Float_t GetLongia() const { return fLongia; }
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115 | Float_t GetLongib() const { return fLongib; }
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116 | Float_t GetLongic() const { return fLongic; }
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117 | Float_t GetLongichi2() const { return fLongichi2; }
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118 | Float_t GetLongit0() const { return fLongit0; }
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119 | Float_t GetLongitmax() const { return fLongitmax; }
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120 |
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121 | void SetPartId(Short_t PartId)
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122 | {fPartId=PartId;} //Set Type of particle
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123 |
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124 | void SetEnergy(Float_t Energy)
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125 | { fEnergy=Energy; } //Set Energy
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126 |
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127 | void SetTheta(Float_t Theta)
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128 | { fTheta=Theta; } //Set Theta angle
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129 |
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130 | void SetPhi(Float_t Phi)
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131 | { fPhi=Phi; } //Set Phi angle
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132 |
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133 | void SetCoreD(Float_t CoreD)
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134 | { fCoreD=CoreD; } //Set Core d pos
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135 |
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136 | void SetCoreX(Float_t CoreX)
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137 | { fCoreX=CoreX; } //Set Core x pos
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138 |
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139 | void SetCoreY(Float_t CoreY )
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140 | { fCoreY=CoreY; } //Set Core y pos
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141 |
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142 | void SetImpact(Float_t Impact)
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143 | { fImpact=Impact;} //Set impact parameter
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144 |
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145 | // DO NOT USE THIS IS A WORKAROUND!
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146 | void SetTelescopeTheta(Float_t Theta) { fTelescopeTheta=Theta; }
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147 | void SetTelescopePhi(Float_t Phi) { fTelescopePhi=Phi; }
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148 |
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149 |
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150 | /* void SetPhotIni(Short_t PhotIni) */
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151 | /* { fPhotIni=PhotIni; } //Set Initial photons */
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152 | /* void SetPassPhotAtm(Short_t PassPhotAtm) */
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153 | /* { fPassPhotAtm=PassPhotAtm;} //Set Passed atmosphere */
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154 | /* void SetPassPhotRef(Short_t PassPhotRef) */
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155 | /* { fPassPhotRef=PassPhotRef ; } //Set Passed reflector */
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156 | /* void SetPassPhotCone(Short_t PhotCon) */
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157 | /* { fPassPhotCone=PhotCon; } //Set Passed glas */
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158 |
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159 |
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160 | ClassDef(MMcEvt, 3) //Stores Montecarlo Information of one event (eg. the energy)
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161 |
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162 | };
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163 |
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164 | #endif
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165 |
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166 |
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167 |
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168 |
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169 |
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