[u/mrichter/AliRoot.git] / EVGEN / AliGenMUONCocktailpp.h

#ifndef ALIGENMUONCOCKTAILPP_H
#define ALIGENMUONCOCKTAILPP_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

//
// Class to create the coktail for physics with muons for pp collisions
// using the The followoing sources: 
// jpsi, psiP, upsilon, upsilonP, upsilonPP, open charm and open beauty
//

#include "AliGenCocktail.h"
#include "AliDecayer.h"

class AliGenCocktailEntry;
class AliGenParam;

class AliGenMUONCocktailpp : public AliGenCocktail
{
 public:

    AliGenMUONCocktailpp();
    enum CMSEnergyCode { kCMS07TeV, kCMS10TeV, kCMS14TeV, kNCMSEs };    

    virtual ~AliGenMUONCocktailpp();    
    virtual void Init();
    virtual void CreateCocktail();
    virtual void Generate();    
    Int_t   GetNSucceded()         const {return fNSucceded;}    
    Int_t   GetNGenerated()        const {return fNGenerated;}
    Int_t   GetMuonMultiplicity()  const {return fMuonMultiplicity;}
    Float_t GetMuonPtCut()         const {return fMuonPtCut;}
    Float_t GetMuonPCut()          const {return fMuonPCut;}    
    Float_t GetMuonThetaMin()      const {return fMuonThetaMinCut;}
    Float_t GetMuonThetaMax()      const {return fMuonThetaMaxCut;}	    
    Float_t GetMuonOriginCut()     const {return fMuonOriginCut;}	    
    Float_t GetDecayModeResonance()const {return fDecayModeResonance;}
    Float_t GetDecayModePythia()   const {return fDecayModePythia;}
    
    void    SetMuonMultiplicity(Int_t MuonMultiplicity) { fMuonMultiplicity = MuonMultiplicity;}
    void    SetMuonPtCut(Float_t PtCut) { fMuonPtCut = PtCut;}
    void    SetMuonPCut(Float_t PCut) { fMuonPCut = PCut;}    
    void    SetMuonOriginCut(Float_t originCut) { fMuonOriginCut = originCut;}
    void    SetMuonThetaRange(Float_t ThetaMin, Float_t ThetaMax){
	fMuonThetaMinCut=ThetaMin;
	fMuonThetaMaxCut=ThetaMax; }    
    void    SetDecayer(AliDecayer* const decayer){fDecayer = decayer;}
    void    SetDecayModeResonance(Decay_t decay){ fDecayModeResonance = decay;}
    void    SetDecayModePythia(Decay_t decay){ fDecayModePythia = decay;}
    void    SetResPolarization(Double_t JpsiPol, Double_t PsiPPol, Double_t UpsPol, 
    				Double_t UpsPPol, Double_t UpsPPPol, char *PolFrame);

    void    SetCMSEnergy(CMSEnergyCode cmsEnergy);
    void    SetSigmaSilent() { fSigmaSilent = kTRUE; }
    
 protected:

    //
 private:
    AliGenMUONCocktailpp(const AliGenMUONCocktailpp &cocktail); 
    AliGenMUONCocktailpp & operator=(const AliGenMUONCocktailpp &cocktail); 

    void AddReso2Generator(Char_t *nameReso, AliGenParam* const genReso, Double_t sigmaReso, Double_t polReso);
    
    AliDecayer* fDecayer; // External decayer
    Decay_t fDecayModeResonance; //decay mode in which resonances are forced to decay, default: kAll
    Decay_t fDecayModePythia; //decay mode in which particles in Pythia are forced to decay, default: kAll
    Int_t   fMuonMultiplicity; // Muon multiplicity for the primordial trigger
    Float_t fMuonPtCut;// Transverse momentum cut for muons
    Float_t fMuonPCut;// Momentum cut for muons    
    Float_t fMuonThetaMinCut;// Minimum theta cut for muons
    Float_t fMuonThetaMaxCut; // Maximum theta cut for muons
    Float_t fMuonOriginCut; //use only muons whose "part->Vz()" value is larger than fMuonOrigin
    Int_t   fNSucceded;// Number of Succes in the (di)-muon generation in the acceptance
    Int_t   fNGenerated;// Number of generated cocktails
    Double_t fJpsiPol, fChic1Pol, fChic2Pol, fPsiPPol, fUpsPol, fUpsPPol, fUpsPPPol;//Resonances polarization parameters
    Int_t    fPolFrame;//Resonances polarization frame (Collins-Soper / Helicity)
//    Int_t fCMSEnergy; // CMS beam energy
    
    Double_t fCMSEnergyTeV;                 // energy
    Double_t fCMSEnergyTeVArray[kNCMSEs];   //!
    Double_t fSigmaReaction;                // xsec pp
    Double_t fSigmaReactionArray[kNCMSEs];  //!
    Double_t fSigmaJPsi;                    // xsec JPsi
    Double_t fSigmaJPsiArray[kNCMSEs];      //!
    Double_t fSigmaChic1;                   // xsec Chic1 
    Double_t fSigmaChic1Array[kNCMSEs];     //!
    Double_t fSigmaChic2;                   // xsec Chic2 
    Double_t fSigmaChic2Array[kNCMSEs];     //!
    Double_t fSigmaPsiP;                    // xsec Psi-prime
    Double_t fSigmaPsiPArray[kNCMSEs];      //!
    Double_t fSigmaUpsilon;                 // xsec Upsilon
    Double_t fSigmaUpsilonArray[kNCMSEs];   //!
    Double_t fSigmaUpsilonP;                // xsec Upsilon-prime 
    Double_t fSigmaUpsilonPArray[kNCMSEs];  //!
    Double_t fSigmaUpsilonPP;               // xsec Upsilon-double-prime
    Double_t fSigmaUpsilonPPArray[kNCMSEs]; //!
    Double_t fSigmaCCbar;                   // xsec correlated charm
    Double_t fSigmaCCbarArray[kNCMSEs];     //!
    Double_t fSigmaBBbar;                   // xsec correlated beauty
    Double_t fSigmaBBbarArray[kNCMSEs];     //!
    
    Bool_t   fSigmaSilent;    // hide values of cross-sections in output

    ClassDef(AliGenMUONCocktailpp,5)  //  cocktail for physics in the Alice
};

#endif
Commit	Line	Data
103ac317	1	#ifndef ALIGENMUONCOCKTAILPP_H
	2	#define ALIGENMUONCOCKTAILPP_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
e5ab62dd	6	//
ba762ab4	7	// Class to create the coktail for physics with muons for pp collisions
	8	// using the The followoing sources:
	9	// jpsi, psiP, upsilon, upsilonP, upsilonPP, open charm and open beauty
	10	//
e5ab62dd	11
103ac317	12	#include "AliGenCocktail.h"
aaa95f22	13	#include "AliDecayer.h"
103ac317	14
103ac317	15	class AliGenCocktailEntry;
ba762ab4	16	class AliGenParam;
103ac317	17
	18	class AliGenMUONCocktailpp : public AliGenCocktail
	19	{
	20	public:
	21
	22	AliGenMUONCocktailpp();
ba762ab4	23	enum CMSEnergyCode { kCMS07TeV, kCMS10TeV, kCMS14TeV, kNCMSEs };
ba762ab4	24
103ac317	25	virtual ~AliGenMUONCocktailpp();
103ac317	26	virtual void Init();
8058ead1	27	virtual void CreateCocktail();
103ac317	28	virtual void Generate();
	29	Int_t GetNSucceded() const {return fNSucceded;}
	30	Int_t GetNGenerated() const {return fNGenerated;}
	31	Int_t GetMuonMultiplicity() const {return fMuonMultiplicity;}
	32	Float_t GetMuonPtCut() const {return fMuonPtCut;}
f81a4aca	33	Float_t GetMuonPCut() const {return fMuonPCut;}
103ac317	34	Float_t GetMuonThetaMin() const {return fMuonThetaMinCut;}
103ac317	35	Float_t GetMuonThetaMax() const {return fMuonThetaMaxCut;}
aaa95f22	36	Float_t GetMuonOriginCut() const {return fMuonOriginCut;}
	37	Float_t GetDecayModeResonance()const {return fDecayModeResonance;}
	38	Float_t GetDecayModePythia() const {return fDecayModePythia;}
103ac317	39
aaa95f22	40	void SetMuonMultiplicity(Int_t MuonMultiplicity) { fMuonMultiplicity = MuonMultiplicity;}
103ac317	41	void SetMuonPtCut(Float_t PtCut) { fMuonPtCut = PtCut;}
f81a4aca	42	void SetMuonPCut(Float_t PCut) { fMuonPCut = PCut;}
aaa95f22	43	void SetMuonOriginCut(Float_t originCut) { fMuonOriginCut = originCut;}
103ac317	44	void SetMuonThetaRange(Float_t ThetaMin, Float_t ThetaMax){
	45	fMuonThetaMinCut=ThetaMin;
	46	fMuonThetaMaxCut=ThetaMax; }
ba762ab4	47	void SetDecayer(AliDecayer* const decayer){fDecayer = decayer;}
aaa95f22	48	void SetDecayModeResonance(Decay_t decay){ fDecayModeResonance = decay;}
aaa95f22	49	void SetDecayModePythia(Decay_t decay){ fDecayModePythia = decay;}
00e6c5ee	50	void SetResPolarization(Double_t JpsiPol, Double_t PsiPPol, Double_t UpsPol,
00e6c5ee	51	Double_t UpsPPol, Double_t UpsPPPol, char *PolFrame);
9ff768ee	52
ba762ab4	53	void SetCMSEnergy(CMSEnergyCode cmsEnergy);
9ff768ee	54	void SetSigmaSilent() { fSigmaSilent = kTRUE; }
ba762ab4	55
103ac317	56	protected:
	57
	58	//
	59	private:
93a2041b	60	AliGenMUONCocktailpp(const AliGenMUONCocktailpp &cocktail);
93a2041b	61	AliGenMUONCocktailpp & operator=(const AliGenMUONCocktailpp &cocktail);
ba762ab4	62
	63	void AddReso2Generator(Char_t nameReso, AliGenParam const genReso, Double_t sigmaReso, Double_t polReso);
	64
	65	AliDecayer* fDecayer; // External decayer
aaa95f22	66	Decay_t fDecayModeResonance; //decay mode in which resonances are forced to decay, default: kAll
aaa95f22	67	Decay_t fDecayModePythia; //decay mode in which particles in Pythia are forced to decay, default: kAll
103ac317	68	Int_t fMuonMultiplicity; // Muon multiplicity for the primordial trigger
103ac317	69	Float_t fMuonPtCut;// Transverse momentum cut for muons
f81a4aca	70	Float_t fMuonPCut;// Momentum cut for muons
103ac317	71	Float_t fMuonThetaMinCut;// Minimum theta cut for muons
103ac317	72	Float_t fMuonThetaMaxCut; // Maximum theta cut for muons
aaa95f22	73	Float_t fMuonOriginCut; //use only muons whose "part->Vz()" value is larger than fMuonOrigin
103ac317	74	Int_t fNSucceded;// Number of Succes in the (di)-muon generation in the acceptance
103ac317	75	Int_t fNGenerated;// Number of generated cocktails
ba8bf3f5	76	Double_t fJpsiPol, fChic1Pol, fChic2Pol, fPsiPPol, fUpsPol, fUpsPPol, fUpsPPPol;//Resonances polarization parameters
00e6c5ee	77	Int_t fPolFrame;//Resonances polarization frame (Collins-Soper / Helicity)
ba762ab4	78	// Int_t fCMSEnergy; // CMS beam energy
	79
	80	Double_t fCMSEnergyTeV; // energy
	81	Double_t fCMSEnergyTeVArray[kNCMSEs]; //!
	82	Double_t fSigmaReaction; // xsec pp
	83	Double_t fSigmaReactionArray[kNCMSEs]; //!
	84	Double_t fSigmaJPsi; // xsec JPsi
	85	Double_t fSigmaJPsiArray[kNCMSEs]; //!
	86	Double_t fSigmaChic1; // xsec Chic1
	87	Double_t fSigmaChic1Array[kNCMSEs]; //!
	88	Double_t fSigmaChic2; // xsec Chic2
	89	Double_t fSigmaChic2Array[kNCMSEs]; //!
	90	Double_t fSigmaPsiP; // xsec Psi-prime
	91	Double_t fSigmaPsiPArray[kNCMSEs]; //!
	92	Double_t fSigmaUpsilon; // xsec Upsilon
	93	Double_t fSigmaUpsilonArray[kNCMSEs]; //!
	94	Double_t fSigmaUpsilonP; // xsec Upsilon-prime
	95	Double_t fSigmaUpsilonPArray[kNCMSEs]; //!
	96	Double_t fSigmaUpsilonPP; // xsec Upsilon-double-prime
	97	Double_t fSigmaUpsilonPPArray[kNCMSEs]; //!
	98	Double_t fSigmaCCbar; // xsec correlated charm
	99	Double_t fSigmaCCbarArray[kNCMSEs]; //!
	100	Double_t fSigmaBBbar; // xsec correlated beauty
	101	Double_t fSigmaBBbarArray[kNCMSEs]; //!
	102
9ff768ee	103	Bool_t fSigmaSilent; // hide values of cross-sections in output
103ac317	104
ba762ab4	105	ClassDef(AliGenMUONCocktailpp,5) // cocktail for physics in the Alice
103ac317	106	};
	107
	108	#endif
	109
	110
	111