- Double_t fInverseBendingMomentum; // Inverse bending momentum (GeV/c ** -1) times the charge (assumed forward motion)
- Double_t fBendingSlope; // Bending slope (cm ** -1)
- Double_t fNonBendingSlope; // Non bending slope (cm ** -1)
- Double_t fZ; // Z coordinate (cm)
- Double_t fBendingCoor; // bending coordinate (cm)
- Double_t fNonBendingCoor; // non bending coordinate (cm)
+ Double_t fInverseBendingMomentum; ///< Inverse bending momentum (GeV/c ** -1) times the charge (assumed forward motion)
+ Double_t fBendingSlope; ///< Bending slope (cm ** -1)
+ Double_t fNonBendingSlope; ///< Non bending slope (cm ** -1)
+ Double_t fZ; ///< Z coordinate (cm)
+ Double_t fBendingCoor; ///< bending coordinate (cm)
+ Double_t fNonBendingCoor; ///< non bending coordinate (cm)