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b6d061b7 | 1 | #ifndef ALIQUENCHINGWEIGHTS_H |
2 | #define ALIQUENCHINGWEIGHTS_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
6 | /* $Id$ */ | |
7 | ||
8 | //---------------------------------------------------------------------------- | |
9 | // Implementation of the class to calculate the parton energy loss | |
10 | // Based on the "BDMPS" quenching weights by C.A.Salgado and U.A.Wiedemann | |
11 | // | |
12 | // References: | |
13 | // C.A.Salgado and U.A.Wiedemann, Phys.Rev.D68 (2003) 014008 [hep-ph/0302184] | |
14 | // A.Dainese, Eur.Phys.J.C, in press, [nucl-ex/0312005] | |
15 | // | |
16 | // Origin: C. Loizides constantin.loizides@cern.ch | |
17 | // A. Dainese andrea.dainese@pd.infn.it | |
18 | //---------------------------------------------------------------------------- | |
19 | ||
20 | #include <TObject.h> | |
21 | class TH1F; | |
22 | ||
23 | class AliQuenchingWeights : public TObject { | |
24 | public: | |
25 | enum kECMethod {kDefault=0,kReweight=1}; | |
26 | ||
27 | AliQuenchingWeights(); | |
28 | AliQuenchingWeights(const AliQuenchingWeights& a); | |
29 | virtual ~AliQuenchingWeights(); | |
30 | ||
31 | void Reset(); | |
32 | Int_t SampleEnergyLoss(); | |
7258586f | 33 | Int_t SampleEnergyLoss(Int_t ipart, Double_t R); |
34 | ||
35 | Double_t GetELossRandom(Int_t ipart, Double_t length, Double_t e=1.e10) const; | |
b6d061b7 | 36 | Double_t CalcQuenchedEnergy(Int_t ipart, Double_t length, Double_t e) const; |
7258586f | 37 | Double_t GetELossRandom(Int_t ipart, TH1F *hell, Double_t e=1.e10) const; |
b6d061b7 | 38 | Double_t CalcQuenchedEnergy(Int_t ipart, TH1F *hell, Double_t e) const; |
7258586f | 39 | Double_t GetELossRandomK(Int_t ipart, Double_t I0, Double_t I1, Double_t e=1.e10); |
40 | Double_t CalcQuenchedEnergyK(Int_t ipart, Double_t I0, Double_t I1, Double_t e); | |
2552c51a | 41 | Double_t GetELossRandomKFast(Int_t ipart, Double_t I0, Double_t I1, Double_t e=1.e10); |
42 | Double_t CalcQuenchedEnergyKFast(Int_t ipart, Double_t I0, Double_t I1, Double_t e); | |
7258586f | 43 | |
b6d061b7 | 44 | //multiple soft scattering approximation |
45 | Int_t InitMult(const Char_t *contall="$(ALICE_ROOT)/FASTSIM/data/cont_mult.all", | |
46 | const Char_t *discall="$(ALICE_ROOT)/FASTSIM/data/disc_mult.all"); | |
47 | ||
48 | //single hard scattering approximation | |
49 | Int_t InitSingleHard(const Char_t *contall="$(ALICE_ROOT)/FASTSIM/data/cont_lin.all", | |
50 | const Char_t *discall="$(ALICE_ROOT)/FASTSIM/data/disc_lin.all"); | |
51 | ||
52 | Int_t CalcMult(Int_t ipart, Double_t rrrr,Double_t xxxx, | |
53 | Double_t &continuous,Double_t &discrete) const; | |
54 | Int_t CalcMult(Int_t ipart, | |
55 | Double_t w, Double_t qtransp, Double_t length, | |
56 | Double_t &continuous,Double_t &discrete) const; | |
57 | Int_t CalcSingleHard(Int_t ipart, Double_t rrrr,Double_t xxxx, | |
58 | Double_t &continuous,Double_t &discrete) const; | |
59 | Int_t CalcSingleHard(Int_t ipart, | |
60 | Double_t w, Double_t mu, Double_t length, | |
61 | Double_t &continuous,Double_t &discrete) const; | |
62 | ||
63 | Double_t CalcWC(Double_t q, Double_t l) const | |
7a76a12e | 64 | {return 0.5*q*l*l*fgkConvFmToInvGeV;} |
b6d061b7 | 65 | |
66 | Double_t CalcWCbar(Double_t mu, Double_t l) const | |
7a76a12e | 67 | {return 0.5*mu*mu*l*fgkConvFmToInvGeV;} |
b6d061b7 | 68 | |
69 | Double_t CalcWC(Double_t l) const | |
70 | {if(fMultSoft) return CalcWC(fQTransport,l); | |
71 | else return CalcWCbar(fMu,l);} | |
72 | ||
7258586f | 73 | Double_t CalcWCk(Double_t I1) const |
74 | {if(fMultSoft) return CalcWCk(fK,I1); | |
75 | else return -1;} //not implemented! | |
76 | ||
77 | Double_t CalcWCk(Double_t k, Double_t I1) const | |
78 | {if(fMultSoft) return k*I1/fgkConvFmToInvGeV; | |
79 | else return -1;} //not implemented! | |
80 | ||
b6d061b7 | 81 | Double_t CalcR(Double_t wc, Double_t l) const; |
82 | ||
7258586f | 83 | Double_t CalcRk(Double_t I0, Double_t I1) const |
84 | {return CalcRk(fK,I0,I1);} | |
85 | ||
86 | Double_t CalcRk(Double_t k, Double_t I0, Double_t I1) const; | |
87 | ||
88 | Double_t CalcQk(Double_t I0, Double_t I1) const | |
89 | {return CalcQk(fK,I0,I1);} | |
90 | ||
91 | Double_t CalcQk(Double_t k, Double_t I0, Double_t I1) const | |
6bd26c4a | 92 | {return I0*I0/2/I1/fgkConvFmToInvGeV/fgkConvFmToInvGeV*k;} |
93 | ||
94 | Double_t CalcLk(Double_t i0, Double_t i1) const | |
95 | {return 2.*i1/i0;} | |
7258586f | 96 | |
b6d061b7 | 97 | Int_t CalcLengthMax(Double_t q) const |
7a76a12e | 98 | {Double_t l3max=fgkRMax/.5/q/fgkConvFmToInvGeV/fgkConvFmToInvGeV; |
b6d061b7 | 99 | return (Int_t)TMath::Power(l3max,1./3.);} |
100 | ||
7258586f | 101 | const TH1F* GetHisto(Int_t ipart,Double_t length) const; |
b6d061b7 | 102 | |
103 | void SetMu(Double_t m=1.) {fMu=m;} | |
104 | void SetQTransport(Double_t q=1.) {fQTransport=q;} | |
7258586f | 105 | void SetK(Double_t k=4.e5) {fK=k;} //about 1 GeV^2/fm |
b6d061b7 | 106 | void SetECMethod(kECMethod type=kDefault); |
107 | void SetLengthMax(Int_t l=20) {fLengthMax=l;} | |
108 | ||
109 | Float_t GetMu() const {return fMu;} | |
110 | Float_t GetQTransport() const {return fQTransport;} | |
7258586f | 111 | Float_t GetK() const {return fK;} |
b6d061b7 | 112 | Bool_t GetECMethod() const {return fECMethod;} |
113 | Bool_t GetTablesLoaded() const {return fTablesLoaded;} | |
114 | Bool_t GetMultSoft() const {return fMultSoft;} | |
115 | Int_t GetLengthMax() const {return fLengthMax;} | |
116 | ||
117 | TH1F* ComputeQWHisto (Int_t ipart,Double_t medval,Double_t length) const; | |
118 | TH1F* ComputeQWHistoX(Int_t ipart,Double_t medval,Double_t length) const; | |
7258586f | 119 | TH1F* ComputeQWHistoX(Int_t ipart,Double_t R) const; |
120 | TH1F* ComputeELossHisto(Int_t ipart,Double_t medval,Double_t l,Double_t e=1.e10) const; | |
121 | TH1F* ComputeELossHisto(Int_t ipart,Double_t medval,TH1F *hEll,Double_t e=1.e10) const; | |
122 | TH1F* ComputeELossHisto(Int_t ipart,Double_t R) const; | |
123 | ||
124 | Double_t GetMeanELoss(Int_t ipart,Double_t medval,Double_t l) const; | |
125 | Double_t GetMeanELoss(Int_t ipart,Double_t medval,TH1F *hEll) const; | |
126 | Double_t GetMeanELoss(Int_t ipart,Double_t R) const; | |
b6d061b7 | 127 | |
7258586f | 128 | void PlotDiscreteWeights(Double_t len=4) const; |
129 | void PlotContWeights(Int_t itype,Double_t len) const; | |
130 | void PlotContWeightsVsL(Int_t itype,Double_t medval) const; | |
131 | void PlotAvgELoss(Double_t len ,Double_t e=1.e10) const; | |
132 | void PlotAvgELoss(TH1F *hEll,Double_t e=1.e10) const; | |
9d851d20 | 133 | void PlotAvgELossVsL(Double_t e=1.e10) const; |
7258586f | 134 | void PlotAvgELossVsPt(Double_t medval,Double_t len) const; |
135 | void PlotAvgELossVsPt(Double_t medval,TH1F *hEll) const; | |
b6d061b7 | 136 | |
137 | protected: | |
7258586f | 138 | Int_t GetIndex(Double_t len) const; |
139 | ||
7a76a12e | 140 | static const Double_t fgkConvFmToInvGeV; //conversion factor |
2552c51a | 141 | static const Int_t fgkBins; //number of bins for hists |
142 | static const Double_t fgkMaxBin; //max. value of wc | |
7258586f | 143 | static const Double_t fgkRMax; //max. tabled value of R |
144 | ||
7a76a12e | 145 | static Int_t fgCounter;//static instance counter |
146 | Int_t fInstanceNumber; //instance number of class | |
b6d061b7 | 147 | |
148 | Bool_t fMultSoft; //approximation type | |
149 | Bool_t fECMethod; //energy constraint method | |
7258586f | 150 | Double_t fQTransport; //transport coefficient [GeV^2/fm]] |
b6d061b7 | 151 | Double_t fMu; //Debye screening mass |
7258586f | 152 | Double_t fK; //proportional constant [fm] |
b6d061b7 | 153 | Int_t fLengthMax; //maximum length |
154 | Int_t fLengthMaxOld; //maximum length used for histos | |
155 | ||
156 | //discrete and cont part of quenching for | |
157 | //both parton type and different lengths | |
158 | TH1F ***fHistos; //! | |
7258586f | 159 | TH1F *fHisto; //! |
b6d061b7 | 160 | |
161 | // data strucs for tables | |
7a76a12e | 162 | Double_t fxx[400]; //sampled energy quark |
163 | Double_t fxxg[400]; //sampled energy gluon | |
164 | Double_t fdaq[34]; //discrete weight quark | |
165 | Double_t fdag[34]; //discrete weight gluon | |
166 | Double_t fcaq[34][261]; //continuous weights quarks | |
167 | Double_t fcag[34][261]; //continuous weights gluons | |
168 | Double_t frrr[34]; //r value quark | |
169 | Double_t frrrg[34]; //r value gluon | |
170 | Bool_t fTablesLoaded; //tables loaded | |
b6d061b7 | 171 | |
172 | ClassDef(AliQuenchingWeights,1) // Base class for Quenching Weights | |
173 | }; | |
174 | ||
175 | #endif |