- Float_t fSqrtKx3; // Mathieson Sqrt(Kx3)
- Float_t fKx2; // Mathieson Kx2
- Float_t fKx4; // Mathieson Kx4 = Kx1/Kx2/Sqrt(Kx3)
- Float_t fSqrtKy3; // Mathieson Sqrt(Ky3)
- Float_t fKy2; // Mathieson Ky2
- Float_t fKy4; // Mathieson Ky4 = Ky1/Ky2/Sqrt(Ky3)
- Float_t fPitch; // anode-cathode pitch
- Float_t fInversePitch; // 1/Pitch
- ClassDef(AliMUONMathieson,3) // Implementation of Mathieson response
+ Float_t fSqrtKx3; ///< Mathieson Sqrt(Kx3)
+ Float_t fKx2; ///< Mathieson Kx2
+ Float_t fKx4; ///< Mathieson Kx4 = Kx1/Kx2/Sqrt(Kx3)
+ Float_t fSqrtKy3; ///< Mathieson Sqrt(Ky3)
+ Float_t fKy2; ///< Mathieson Ky2
+ Float_t fKy4; ///< Mathieson Ky4 = Ky1/Ky2/Sqrt(Ky3)
+ Float_t fPitch; ///< anode-cathode pitch
+ Float_t fInversePitch; ///< 1/Pitch
+
+ ClassDef(AliMUONMathieson,3) // Implementation of Mathieson response