static Double_t ChamberThicknessInX0(Int_t chId) {return (chId >= 0 && chId < 10) ? fgChamberThicknessInX0[chId] : 0.;}
/// Return Trigger ToF Limit (75 ns)
static Float_t TriggerTofLimit() {return fgkTriggerTofLimit;}
- /// Return default trigger chamber resolution in non bending direction
+ /// Return default trigger chamber resolution DUE TO ALIGNMENT ONLY in non bending direction
static Double_t TriggerNonBendingReso() {return fgkTriggerNonBendingReso;}
- /// Return default trigger chamber resolution in bending direction
+ /// Return default trigger chamber resolution DUE TO ALIGNMENT ONLY in bending direction
static Double_t TriggerBendingReso() {return fgkTriggerBendingReso;}
/// Return z-position of muon filter begining
static Double_t MuonFilterZBeg() {return fgkMuonFilterZBeg;}
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 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 fgkTriggerNonBendingReso; ///< default trigger chamber resolution in the non-bending direction, DUE TO ALIGNMENT ONLY
+ static const Double_t fgkTriggerBendingReso; ///< default trigger chamber resolution in the bending direction, DUE TO ALIGNMENT ONLY
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