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1 | #ifndef ALIGENSLOWNUCLEONS_H |
| 2 | #define ALIGENSLOWNUCLEONS_H |
| 3 | /* Copyright(c) 198-1999, ALICE Experiment at CERN, All rights reserved. * |
| 4 | * See cxx source for full Copyright notice */ |
| 5 | |
| 6 | /* $Id$ */ |
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7 | // |
| 8 | // Generator for slow nucleons in pA interactions. |
| 9 | // Source is modelled by a relativistic Maxwell distributions. |
| 10 | // Original code by Ferenc Sikler <sikler@rmki.kfki.hu> |
| 11 | // This class: andreas.morsch@cern.ch |
| 12 | // |
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13 | #include "AliGenerator.h" |
| 14 | class AliSlowNucleonModel; |
| 15 | class TH2F; |
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16 | class TH1F; |
| 17 | class TF1; |
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18 | |
| 19 | class AliGenSlowNucleons : public AliGenerator |
| 20 | { |
| 21 | public: |
| 22 | AliGenSlowNucleons(); |
| 23 | AliGenSlowNucleons(Int_t npart); |
| 24 | virtual ~AliGenSlowNucleons(); |
| 25 | virtual void Init(); |
| 26 | virtual void FinishRun(); |
| 27 | virtual void Generate(); |
| 28 | virtual void SetPmax(Float_t pmax = 10.) {fPmax = pmax;} |
| 29 | virtual void SetNominalCmsEnergy(Float_t energy = 14000.) {fCMS = energy;} |
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30 | virtual void SetTarget(Int_t a = 208, Int_t z = 82) {fATarget = a; fZTarget = z;} |
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31 | virtual void SetTarget(TString s, Int_t a, Int_t z) {AliGenerator::SetTarget(s, a, z);} |
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32 | virtual void SetProtonDirection(Float_t dir = 1.); |
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33 | virtual void SetCharge(Int_t c = 1) {fCharge = c;} |
| 34 | virtual void SetTemperature(Double_t t1 = 0.04, Double_t t2 = 0.004) |
| 35 | {fTemperatureG = t1; fTemperatureB = t2;} |
| 36 | virtual void SetBetaSource(Double_t b1 = 0.05, Double_t b2 = 0.) |
| 37 | {fBetaSourceG = b1; fBetaSourceB = b2;} |
| 38 | // |
| 39 | virtual void SetSlowNucleonModel(AliSlowNucleonModel* model) |
| 40 | {fSlowNucleonModel = model;} |
| 41 | virtual Bool_t NeedsCollisionGeometry() const {return kTRUE;} |
| 42 | virtual void SetCollisionGeometry(AliCollisionGeometry* geom) |
| 43 | {fCollisionGeometry = geom;} |
| 44 | virtual void SetDebug(Int_t flag = 0) {fDebug = flag;} |
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45 | virtual void SetNumbersOfSlowNucleons(Int_t ngp, Int_t ngn, Int_t nbp, Int_t nbn) |
| 46 | {fNgp = ngp; fNgn = ngn; fNbp = nbp; fNbn = nbn;} |
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47 | // |
| 48 | // Added by Chiara to take into account angular distribution 4 gray tracks |
| 49 | virtual void SetThetaDist(Int_t flag=0) {fThetaDistribution = flag;} |
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50 | // |
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51 | virtual void SetBeamCrossingAngle(Float_t crossAngle) {fBeamCrossingAngle = crossAngle;} |
| 52 | virtual void SetBeamDivergence(Float_t divergence) {fBeamDivergence = divergence;} |
| 53 | // |
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54 | virtual Int_t GetNGrayProtons() {return fNgp;} |
| 55 | virtual Int_t GetNGrayNeutrons() {return fNgn;} |
| 56 | virtual Int_t GetNBlackProtons() {return fNbp;} |
| 57 | virtual Int_t GetNBlackNeutrons() {return fNbn;} |
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58 | |
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59 | protected: |
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60 | void GenerateSlow(Int_t charge, Double_t T, Double_t beta, Float_t* q, Float_t &theta); |
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61 | Double_t Maxwell(Double_t m, Double_t p, Double_t t); |
| 62 | void Lorentz(Double_t m, Double_t beta, Float_t* q); |
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63 | void BeamCrossDivergence(Int_t iwhat, Float_t *pLab);; |
| 64 | void AddAngle(Double_t theta1, Double_t phi1, Double_t theta2, |
| 65 | Double_t phi2, Double_t *angle); |
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66 | void SetProcessID(Int_t nt, UInt_t process); |
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67 | protected: |
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68 | Float_t fCMS; // Center of mass energy |
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69 | Double_t fMomentum; // Target nucleus momentum |
| 70 | Double_t fBeta; // Target nucleus beta |
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71 | Float_t fPmax; // Maximum slow nucleon momentum |
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72 | Int_t fCharge; // Slow nucleon charge |
| 73 | Float_t fProtonDirection; // Direction of the proton |
| 74 | Float_t fTemperatureG; // Source Temperature for gray nucleons |
| 75 | Float_t fBetaSourceG; // Source beta for gray nucleons |
| 76 | Float_t fTemperatureB; // Source Temperature for black nucleons |
| 77 | Float_t fBetaSourceB; // Source beta for black nucleons |
| 78 | Int_t fNgp; // Number of gray protons |
| 79 | Int_t fNgn; // Number of gray neutrons |
| 80 | Int_t fNbp; // Number of black protons |
| 81 | Int_t fNbn; // Number of black neutrons |
| 82 | Int_t fDebug; // Debug flag |
| 83 | TH2F* fDebugHist1; // Histogram for debugging |
| 84 | TH2F* fDebugHist2; // Histogram for debugging |
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85 | // Added by Chiara to take into account angular distribution 4 gray tracks |
| 86 | Int_t fThetaDistribution;// 0 -> flat dist., 1 -> fwd. peaked distribution |
| 87 | TH1F* fCosThetaGrayHist; // Histogram for debugging |
| 88 | TF1* fCosTheta; // Function for non-uniform cos(theta) distribution |
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89 | // |
| 90 | Float_t fBeamCrossingAngle; // beam crossing angle (in radians) |
| 91 | Float_t fBeamDivergence; // beam divergence (in radians) |
| 92 | Float_t fBeamDivEvent; // beam divergence (in radians) |
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93 | // |
| 94 | AliSlowNucleonModel* fSlowNucleonModel; // The slow nucleon model |
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95 | |
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96 | enum {kGrayProcess = 200, kBlackProcess = 300}; |
| 97 | |
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98 | private: |
| 99 | AliGenSlowNucleons(const AliGenSlowNucleons &sn); |
| 100 | AliGenSlowNucleons & operator=(const AliGenSlowNucleons & rhs); |
| 101 | |
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102 | ClassDef(AliGenSlowNucleons,3) // Slow Nucleon Generator |
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103 | }; |
| 104 | #endif |
| 105 | |
| 106 | |
| 107 | |
| 108 | |
| 109 | |
| 110 | |
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111 | |
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