/// Return half-distance between two slats
static Float_t DzSlat() {return fgDzSlat;}
/// Return chamber number according z position of hit.
- static Int_t ChamberNumber(Float_t z);
+ static Int_t ChamberNumber(Float_t z, bool warn = false);
/// Return SqrtKx3 for Slat
static Float_t SqrtKx3() {return fgSqrtKx3;}
/// Return SqrtKy3 for Slat
static Double_t YokeZ() {return fgYokeZ;}
/// Return yoke lenght
static Double_t YokeL() {return fgYokeL;}
+ /// Return z-position of absorber begining
+ static const Double_t AbsZBeg() {return fgkAbsZBeg;}
+ /// Return z-position of absorber end
+ static const Double_t AbsZEnd() {return fgkAbsZEnd;}
/// Return chamber thickness in X0
static Double_t ChamberThicknessInX0() {return fgChamberThicknessInX0;}
/// Return Trigger ToF Limit (75 ns)
static Float_t TriggerTofLimit() {return fgkTriggerTofLimit;}
-
+ /// Return default chamber resolution in non bending direction
+ static const Double_t DefaultNonBendingReso() {return fgkDefaultNonBendingReso;}
+ /// Return default chamber resolution**2 in non bending direction
+ static const Double_t DefaultNonBendingReso2() {return fgkDefaultNonBendingReso*fgkDefaultNonBendingReso;}
+ /// Return default chamber resolution in bending direction
+ static const Double_t DefaultBendingReso() {return fgkDefaultBendingReso;}
+ /// Return default chamber resolution**2 in bending direction
+ static const Double_t DefaultBendingReso2() {return fgkDefaultBendingReso*fgkDefaultBendingReso;}
+ /// Return default trigger chamber resolution in non bending direction
+ static const Double_t TriggerNonBendingReso() {return fgkTriggerNonBendingReso;}
+ /// Return default trigger chamber resolution in bending direction
+ static const Double_t TriggerBendingReso() {return fgkTriggerBendingReso;}
+ /// Return z-position of muon filter begining
+ static const Double_t MuonFilterZBeg() {return fgkMuonFilterZBeg;}
+ /// Return z-position of muon filter end
+ static const Double_t MuonFilterZEnd() {return fgkMuonFilterZEnd;}
+ /// Return radiation length (in cm) of muon filter
+ static const Double_t MuonFilterX0() {return fgkMuonFilterX0;}
+
+
protected:
/// Default constructor
AliMUONConstants() : TObject() {}
static Int_t fgNGeomModules; ///< Number of Geometry modules
static Float_t fgDefaultChamberZ[14]; //!< Z-positions of chambers
+ static Float_t fgDefaultChamberMinZ[14]; //!< Minimum z-positions of chambers
+ static Float_t fgDefaultChamberMaxZ[14]; //!< Maximum z-positions of chambers
static Float_t fgDefaultRatioTriggerChamber[4]; ///< Ratio between trigger chambers
static Float_t fgSt345inclination; //!< Inclination with respect the vertical axis of stations 345
static Float_t fgDmin[7]; //!< Inner diameter
static Double_t fgYokeZ; ///< Yoke z-position
static Double_t fgYokeL; ///< Yoke lenght
+ static const Double_t fgkAbsZBeg; ///< z-position of the begining of the absorber
+ static const Double_t fgkAbsZEnd; ///< z-position of the end of the absorber
+
static Int_t fgMaxZoom; ///< Maximum Zoom for event display
static Float_t fgkTriggerTofLimit; ///< Particle above this threshold are discarded in trigger algorithm
+ static const Double_t fgkDefaultNonBendingReso; ///< default chamber resolution in the non-bending direction
+ static const Double_t fgkDefaultBendingReso; ///< default chamber resolution in the bending direction
+
+ static const Double_t fgkTriggerNonBendingReso; ///< default trigger chamber resolution in the non-bending direction
+ static const Double_t fgkTriggerBendingReso; ///< default trigger chamber resolution in the bending direction
+
+ static const Double_t fgkMuonFilterZBeg; ///< z-position of the begining of the muon filter
+ static const Double_t fgkMuonFilterZEnd; ///< z-position of the end of the muon filter
+ static const Double_t fgkMuonFilterX0; ///< x0 of the muon filter
+
ClassDef(AliMUONConstants, 0) // MUON global constants
};