Double_t LorentzAngleElectron(Double_t bz) const;
Double_t LorentzAngleHole(Double_t bz) const;
//
- Double_t SigmaDiffusion3D(Double_t l) const;
- Double_t SigmaDiffusion2D(Double_t l) const;
- Double_t SigmaDiffusion1D(Double_t l) const;
- //
Int_t GetNRespFunParams() const {return fRespFunParam.GetEntriesFast();}
const AliParamList* GetRespFunParams(Int_t i) const {return (const AliParamList*)fRespFunParam[i];}
const AliParamList* FindRespFunParams(Int_t detId) const;
UInt_t fPixCouplOpt; // Pix Coupling Option
Double_t fPixCouplCol; // Pix Coupling parameter along the cols
Double_t fPixCouplRow; // Pix Coupling parameter along the rows
- Double_t fPixEccDiff; // Eccentricity (i.e. asymmetry parameter) in the Gaussian diffusion for Pix
Bool_t fPixLorentzDrift; // Flag to decide whether to simulate the Lorentz Drift or not in Pix
Double_t fPixLorentzHoleWeight;// Lorentz Angle is computed for Pix as average of Hole and Electron
// this parameter gives the relative weights between the two