virtual void CreateZDC();
virtual void CreateMaterials();
virtual Int_t IsVersion() const {return 1;}
- virtual void DrawModule() const;
+ virtual void AddAlignableVolumes() const;
virtual void Init();
virtual void InitTables();
virtual void StepManager();
+ void SetVCollSideCAperture(Float_t aperture)
+ {if(aperture<3.5) fVCollSideCAperture = aperture;
+ else printf("\n\n AliZDCv3: WARNING! SideC TCTVB aperture set to max. value: 3.5 cm\n\n");}
+ void SetVCollSideCApertureNeg(Float_t aperture)
+ {if(aperture<3.5) fVCollSideCApertureNeg = aperture;
+ else printf("\n\n AliZDCv3: WARNING! SideC TCTVB aperture set to max. value: -3.5 cm\n\n");}
+ void SetVCollSideCCentre(Float_t centre) {fVCollSideCCentreY = centre;}
+
+ void SetVCollSideAAperture(Float_t aperture)
+ {if(aperture<=3.5) fVCollSideAAperture = aperture;
+ else printf("\n\n AliZDCv3: WARNING! SideA TCTVB aperture set to max. value: 3.5 cm\n\n");}
+ void SetVCollSideAApertureNeg(Float_t aperture)
+ {if(aperture<=3.5) fVCollSideAApertureNeg = aperture;
+ else printf("\n\n AliZDCv3: WARNING! SideA TCTVB aperture set to max. value: -3.5 cm\n\n");}
+ void SetVCollSideACentre(Float_t centre) {fVCollSideACentreY = centre;}
+
+ virtual void SetTCDDAperturePos(Float_t aperture)
+ {if(aperture<=2.2) fTCDDAperturePos = aperture;
+ else printf("\n\n AliZDCv3: WARNING! TCDD pos. aperture set to max. value: 2.0 cm\n\n");}
+ virtual void SetTCDDApertureNeg(Float_t aperture)
+ {if(aperture<=2.4) fTCDDApertureNeg = aperture;
+ else printf("\n\n AliZDCv3: WARNING! TCDD neg. aperture set to max. value: -2.2 cm\n\n");}
+
+
+ virtual void SetTDIAperturePos(Float_t aperture)
+ {if(aperture<=6.) fTDIAperturePos = aperture;
+ else printf("\n\n AliZDCv3: WARNING! TDI pos. aperture set to max. value: 6.0 cm\n\n");}
+ virtual void SetTDIApertureNeg(Float_t aperture)
+ {if(aperture<=6.) fTDIApertureNeg = aperture;
+ else printf("\n\n AliZDCv3: WARNING! TDI neg. aperture set to max. value: -6.0 cm\n\n");}
+
+ void SetLumiLength(Float_t length) {fLumiLength = length;}
+
+ void SetYZNC(Float_t yZNC) {fPosZNC[1] = yZNC;}
+ void SetYZNA(Float_t yZNA) {fPosZNA[1] = yZNA;}
+
+ void SetYZPC(Float_t yZPC) {fPosZPC[1] = yZPC;}
+ void SetYZPA(Float_t yZPA) {fPosZPA[1] = yZPA;}
+
protected:
Int_t fMedSensZEM; // Sensitive medium for EM ZDC
Int_t fMedSensGR; // Other sensitive medium
Int_t fMedSensPI; // Beam pipe and magnet coils
- Int_t fMedSensCu; // Cu materials along beam pipe
+ Int_t fMedSensTDI; // Cu materials along beam pipe
+ Int_t fMedSensVColl; // W jaws of vertical collimators
+ Int_t fMedSensLumi; // luminometer medium
// Parameters for light tables
Int_t fNalfan; // Number of Alfa (neutrons)
// (other parameters are defined in CreateZDC())
Float_t fDimZN[3]; // Dimensions of proton detector
Float_t fDimZP[3]; // Dimensions of proton detector
- Float_t fPosZN1[3]; // Position of neutron detector
- Float_t fPosZN2[3]; // Position of neutron detector *** Left
- Float_t fPosZP1[3]; // Position of proton detector
- Float_t fPosZP2[3]; // Position of proton detector *** Left
+ Float_t fPosZNC[3]; // Position of neutron detector side C
+ Float_t fPosZNA[3]; // Position of neutron detector side A
+ Float_t fPosZPC[3]; // Position of proton detector side C
+ Float_t fPosZPA[3]; // Position of proton detector side A
Float_t fFibZN[3]; // Fibers for neutron detector
Float_t fFibZP[3]; // Fibers for proton detector
Float_t fPosZEM[3]; // Position of EM detector
Float_t fZEMLength; // ZEM length
- // Parameters for tracking studies
- Int_t fpLostIT, fpLostD1, fpLostTDI, fpDetected; // For proton acceptance
+ // Parameters for proton accepancy studies
+ Int_t fpLostITC, fpLostD1C, fpcVCollC, fpDetectedC, fnDetectedC; // Side C
+ Int_t fpLostITA, fpLostD1A, fpLostTDI, fpcVCollA, fpDetectedA, fnDetectedA; // Side A
+
+ // Apertures to describe beam line elements variable apertures
+
+ // Vertical collimator
+ Float_t fVCollSideCAperture; // Semi-aperture of TCTVB jaws pos. y dir.
+ Float_t fVCollSideCApertureNeg; // Semi-aperture of TCTVB jaws neg. y dir (abs. value)
+ Float_t fVCollSideCCentreY; // Centre of TCTVB jaw apertures
+ Float_t fVCollSideAAperture; // Semi-aperture of TCTVB jaws pos. y dir.
+ Float_t fVCollSideAApertureNeg; // Semi-aperture of TCTVB jaws neg. y dir. (abs. value)
+ Float_t fVCollSideACentreY; // Centre of TCTVB jaw apertures
+
+ // TCDD
+ Float_t fTCDDAperturePos; // TCDD semi-aperture pos. y dir.
+ Float_t fTCDDApertureNeg; // TCDD semi-aperture neg. y dir. (abs. value)
+
+ // TDI
+ Float_t fTDIAperturePos; // TDI semi-aperture pos. y dir.
+ Float_t fTDIApertureNeg; // TDI semi-aperture neg. y dir. (abs. value)
+
+ Float_t fLumiLength; // Luminometer length
- ClassDef(AliZDCv3,1) // Zero Degree Calorimeter version 1
+ ClassDef(AliZDCv3,8) // Zero Degree Calorimeter version 1
};
#endif