/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id$ */ /////////////////////////////////////////////////////////////////////////////// // // // TRD parameter class // // // /////////////////////////////////////////////////////////////////////////////// #include #include "AliRun.h" #include "AliTRDparameter.h" #include "AliTRDgeometryFull.h" #include "AliTRDpadPlane.h" ClassImp(AliTRDparameter) //_____________________________________________________________________________ AliTRDparameter::AliTRDparameter():TNamed() { // // AliTRDparameter default constructor // fGeo = 0; fPadPlaneArray = 0; fPRFsmp = 0; fTRFsmp = 0; fCTsmp = 0; fGasGain = 0.0; fNoise = 0.0; fChipGain = 0.0; fADCoutRange = 0.0; fADCinRange = 0.0; fADCthreshold = 0; fADCbaseline = 0; fDiffusionT = 0.0; fDiffusionL = 0.0; fElAttachProp = 0.0; fOmegaTau = 0.0; fDriftVelocity = 0.0; fSamplingFrequency = 0.0; fPadCoupling = 0.0; fTimeCoupling = 0.0; fField = 0.0; fPRFbin = 0; fPRFlo = 0.0; fPRFhi = 0.0; fPRFwid = 0.0; fPRFpad = 0; fTRFbin = 0; fTRFlo = 0.0; fTRFhi = 0.0; fTRFwid = 0.0; fTCnexp = 0; fLUT = 0; fClusMaxThresh = 0; fClusSigThresh = 0; fTimeStruct1 = 0; fTimeStruct2 = 0; fAnodeWireOffset = 0.0; fDiffusionOn = kFALSE; fElAttachOn = kFALSE; fExBOn = kFALSE; fPRFOn = kFALSE; fTRFOn = kFALSE; fCTOn = kFALSE; fTCOn = kFALSE; fLUTOn = kFALSE; fTimeStructOn = kFALSE; } //_____________________________________________________________________________ AliTRDparameter::AliTRDparameter(const Text_t *name, const Text_t *title) :TNamed(name,title) { // // AliTRDparameter constructor // fGeo = new AliTRDgeometryFull(); fPadPlaneArray = new TObjArray(AliTRDgeometry::Nplan() * AliTRDgeometry::Ncham()); fPRFsmp = 0; fTRFsmp = 0; fCTsmp = 0; fGasGain = 0.0; fNoise = 0.0; fChipGain = 0.0; fADCoutRange = 0.0; fADCinRange = 0.0; fADCthreshold = 0; fADCbaseline = 0; fDiffusionT = 0.0; fDiffusionL = 0.0; fElAttachProp = 0.0; fExBOn = 0; fOmegaTau = 0.0; fDriftVelocity = 0.0; fSamplingFrequency = 0.0; fPadCoupling = 0.0; fTimeCoupling = 0.0; fField = 0.0; fPRFbin = 0; fPRFlo = 0.0; fPRFhi = 0.0; fPRFwid = 0.0; fPRFpad = 0; fTRFbin = 0; fTRFlo = 0.0; fTRFhi = 0.0; fTRFwid = 0.0; fTCnexp = 0; fLUT = 0; fClusMaxThresh = 0; fClusSigThresh = 0; fTimeStruct1 = 0; fTimeStruct2 = 0; fAnodeWireOffset = 0.0; fDiffusionOn = kFALSE; fElAttachOn = kFALSE; fExBOn = kFALSE; fPRFOn = kFALSE; fTRFOn = kFALSE; fCTOn = kFALSE; fTCOn = kFALSE; fLUTOn = kFALSE; fTimeStructOn = kFALSE; Init(); } //_____________________________________________________________________________ AliTRDparameter::AliTRDparameter(const AliTRDparameter &p):TNamed(p) { // // AliTRDparameter copy constructor // ((AliTRDparameter &) p).Copy(*this); } ///_____________________________________________________________________________ AliTRDparameter::~AliTRDparameter() { // // AliTRDparameter destructor // if (fTRFsmp) { delete [] fTRFsmp; fTRFsmp = 0; } if (fPRFsmp) { delete [] fPRFsmp; fPRFsmp = 0; } if (fCTsmp) { delete [] fCTsmp; fCTsmp = 0; } if (fLUT) { delete [] fLUT; fLUT = 0; } if (fGeo) { delete fGeo; fGeo = 0; } if (fPadPlaneArray) { fPadPlaneArray->Delete(); delete fPadPlaneArray; fPadPlaneArray = 0; } if (fTimeStruct1) { delete [] fTimeStruct1; fTimeStruct1 = 0; } if (fTimeStruct2) { delete [] fTimeStruct2; fTimeStruct2 = 0; } } //_____________________________________________________________________________ AliTRDparameter &AliTRDparameter::operator=(const AliTRDparameter &p) { // // Assignment operator // if (this != &p) ((AliTRDparameter &) p).Copy(*this); return *this; } //_____________________________________________________________________________ void AliTRDparameter::Copy(TObject &p) const { // // Copy function // Int_t iBin; ((AliTRDparameter &) p).fGasGain = fGasGain; ((AliTRDparameter &) p).fNoise = fNoise; ((AliTRDparameter &) p).fChipGain = fChipGain; ((AliTRDparameter &) p).fADCoutRange = fADCoutRange; ((AliTRDparameter &) p).fADCinRange = fADCinRange; ((AliTRDparameter &) p).fADCthreshold = fADCthreshold; ((AliTRDparameter &) p).fADCbaseline = fADCbaseline; ((AliTRDparameter &) p).fDiffusionOn = fDiffusionOn; ((AliTRDparameter &) p).fDiffusionT = fDiffusionT; ((AliTRDparameter &) p).fDiffusionL = fDiffusionL; ((AliTRDparameter &) p).fElAttachOn = fElAttachOn; ((AliTRDparameter &) p).fElAttachProp = fElAttachProp; ((AliTRDparameter &) p).fExBOn = fExBOn; ((AliTRDparameter &) p).fOmegaTau = fOmegaTau; ((AliTRDparameter &) p).fLorentzFactor = fLorentzFactor; ((AliTRDparameter &) p).fDriftVelocity = fDriftVelocity; ((AliTRDparameter &) p).fSamplingFrequency = fSamplingFrequency; ((AliTRDparameter &) p).fPadCoupling = fPadCoupling; ((AliTRDparameter &) p).fTimeCoupling = fTimeCoupling; ((AliTRDparameter &) p).fField = fField; ((AliTRDparameter &) p).fPRFOn = fPRFOn; ((AliTRDparameter &) p).fTRFOn = fTRFOn; ((AliTRDparameter &) p).fCTOn = fCTOn; ((AliTRDparameter &) p).fTCOn = fTCOn; ((AliTRDparameter &) p).fPRFbin = fPRFbin; ((AliTRDparameter &) p).fPRFlo = fPRFlo; ((AliTRDparameter &) p).fPRFhi = fPRFhi; ((AliTRDparameter &) p).fPRFwid = fPRFwid; ((AliTRDparameter &) p).fPRFpad = fPRFpad; if (((AliTRDparameter &) p).fPRFsmp) delete [] ((AliTRDparameter &) p).fPRFsmp; ((AliTRDparameter &) p).fPRFsmp = new Float_t[fPRFbin]; for (iBin = 0; iBin < fPRFbin; iBin++) { ((AliTRDparameter &) p).fPRFsmp[iBin] = fPRFsmp[iBin]; } ((AliTRDparameter &) p).fTRFbin = fTRFbin; ((AliTRDparameter &) p).fTRFlo = fTRFlo; ((AliTRDparameter &) p).fTRFhi = fTRFhi; ((AliTRDparameter &) p).fTRFwid = fTRFwid; if (((AliTRDparameter &) p).fTRFsmp) delete [] ((AliTRDparameter &) p).fTRFsmp; ((AliTRDparameter &) p).fTRFsmp = new Float_t[fTRFbin]; for (iBin = 0; iBin < fTRFbin; iBin++) { ((AliTRDparameter &) p).fTRFsmp[iBin] = fTRFsmp[iBin]; } if (((AliTRDparameter &) p).fCTsmp) delete [] ((AliTRDparameter &) p).fCTsmp; ((AliTRDparameter &) p).fCTsmp = new Float_t[fTRFbin]; for (iBin = 0; iBin < fTRFbin; iBin++) { ((AliTRDparameter &) p).fCTsmp[iBin] = fCTsmp[iBin]; } ((AliTRDparameter &) p).fTCnexp = fTCnexp; ((AliTRDparameter &) p).fLUTOn = fLUTOn; ((AliTRDparameter &) p).fLUTbin = fLUTbin; if (((AliTRDparameter &) p).fLUT) delete [] ((AliTRDparameter &) p).fLUT; ((AliTRDparameter &) p).fLUT = new Float_t[fLUTbin]; for (iBin = 0; iBin < fLUTbin; iBin++) { ((AliTRDparameter &) p).fLUT[iBin] = fLUT[iBin]; } ((AliTRDparameter &) p).fClusMaxThresh = fClusMaxThresh; ((AliTRDparameter &) p).fClusSigThresh = fClusSigThresh; ((AliTRDparameter &) p).fAnodeWireOffset = fAnodeWireOffset; ((AliTRDparameter &) p).fTimeStructOn = fTimeStructOn; if (((AliTRDparameter &) p).fTimeStruct1) delete [] ((AliTRDparameter &) p).fTimeStruct1; ((AliTRDparameter &) p).fTimeStruct1 = new Float_t[38*11]; for (Int_t i = 0; i < 38*11; i++) { ((AliTRDparameter &) p).fTimeStruct1[i] = fTimeStruct1[i]; } if (((AliTRDparameter &) p).fTimeStruct2) delete [] ((AliTRDparameter &) p).fTimeStruct2; ((AliTRDparameter &) p).fTimeStruct2 = new Float_t[38*11]; for (Int_t i = 0; i < 38*11; i++) { ((AliTRDparameter &) p).fTimeStruct2[i] = fTimeStruct2[i]; } } //_____________________________________________________________________________ void AliTRDparameter::Init() { // // Initializes the parameter // Int_t iplan; Int_t icham; // // ---------------------------------------------------------------------------- // The pad planes // ---------------------------------------------------------------------------- // for (iplan = 0; iplan < AliTRDgeometry::Nplan(); iplan++) { for (icham = 0; icham < AliTRDgeometry::Ncham(); icham++) { Int_t ipp = iplan + icham * AliTRDgeometry::Nplan(); fPadPlaneArray->AddAt(new AliTRDpadPlane(iplan,icham),ipp); } } // !CHANGED! // Time position of anode wire plane for (iplan = 0; iplan < AliTRDgeometry::Nplan(); iplan++) { fTime0[iplan] = AliTRDgeometry::Rmin() + AliTRDgeometry::CraHght() + AliTRDgeometry::CdrHght() + AliTRDgeometry::CamHght()/2. + iplan * (AliTRDgeometry::Cheight() + AliTRDgeometry::Cspace()); } // // ---------------------------------------------------------------------------- // The digitization parameters // ---------------------------------------------------------------------------- // // Use drift time maps fTimeStructOn = kTRUE; // The Sampling Frequency. Default is 10MHz fSamplingFrequency = 10.0; // The drift velocity (in drift region) and the time structure of the // drift cells. Default is 1.5 cm/mus SetDriftVelocity(1.5); // Additional time bins before and after the drift region. // Default is to only sample the drift region SetExpandTimeBin(0,0); // The default parameter for the digitization fGasGain = 4000.; fChipGain = 12.4; fNoise = 1000.; fADCoutRange = 1023.; // 10-bit ADC fADCinRange = 2000.; // 2V input range fADCthreshold = 1; fADCbaseline = 0; // Diffusion on fDiffusionOn = kTRUE; // E x B effects fExBOn = kTRUE; // Propability for electron attachment fElAttachOn = kFALSE; fElAttachProp = 0.0; // The pad response function fPRFOn = kTRUE; // The time response function fTRFOn = kTRUE; // The cross talk fCTOn = kTRUE; // The tail cancelation fTCOn = kTRUE; // The number of exponentials fTCnexp = 1; // The pad coupling factor //fPadCoupling = 0.3; // Use 0.46 instead which reproduces better the test beam // data, even tough it is not understood why. fPadCoupling = 0.46; // The time coupling factor (same number as for the TPC) fTimeCoupling = 0.4; // Distance of first Anode wire from first pad edge fAnodeWireOffset = 0.25; // The magnetic field strength in Tesla Double_t x[3] = { 0.0, 0.0, 0.0 }; Double_t b[3]; gAlice->Field(x,b); // b[] is in kilo Gauss fField = b[2] * 0.1; // Tesla // // ---------------------------------------------------------------------------- // The clusterization parameter // ---------------------------------------------------------------------------- // // The default parameter for the clustering fClusMaxThresh = 3; fClusSigThresh = 1; // Use the LUT fLUTOn = kTRUE; ReInit(); } //_____________________________________________________________________________ void AliTRDparameter::ReInit() { // // Reinitializes the parameter class after a change // Float_t maxdrift = AliTRDgeometry::DrThick() + AliTRDgeometry::AmThick()/2.0; // Number of time bins: fTimeMax = (Int_t) ( maxdrift / fDriftVelocity * fSamplingFrequency ); // The range and the binwidth for the sampled TRF fTRFbin = 100; // Start 0.2 mus before the signal fTRFlo = -0.2; // End the maximum drift time after the signal fTRFhi = 2.2; // fTRFwid = (fTRFhi - fTRFlo) / ((Float_t) fTRFbin); // Transverse and longitudinal diffusion coefficients (Xe/CO2) fDiffusionT = GetDiffusionT(fDriftVelocity,fField); fDiffusionL = GetDiffusionL(fDriftVelocity,fField); // omega * tau = tan(Lorentz-angle) fOmegaTau = GetOmegaTau(fDriftVelocity,fField); // The Lorentz factor if (fExBOn) { fLorentzFactor = 1.0 / (1.0 + fOmegaTau*fOmegaTau); } else { fLorentzFactor = 1.0; } // Create the sampled PRF SamplePRF(); // Create the sampled TRF SampleTRF(); // Create the LUT FillLUT(); } //_____________________________________________________________________________ AliTRDpadPlane *AliTRDparameter::GetPadPlane(Int_t p, Int_t c) const { // // Returns the pad plane for a given plane

and chamber number // Int_t ipp = p + c * AliTRDgeometry::Nplan(); return ((AliTRDpadPlane *) fPadPlaneArray->At(ipp)); } //_____________________________________________________________________________ Int_t AliTRDparameter::GetRowMax(Int_t p, Int_t c, Int_t /*s*/) const { // // Returns the number of rows on the pad plane // return GetPadPlane(p,c)->GetNrows(); } //_____________________________________________________________________________ Int_t AliTRDparameter::GetColMax(Int_t p) const { // // Returns the number of rows on the pad plane // return GetPadPlane(p,0)->GetNcols(); } //_____________________________________________________________________________ Double_t AliTRDparameter::GetRow0(Int_t p, Int_t c, Int_t /*s*/) const { // // Returns the position of the border of the first pad in a row // return GetPadPlane(p,c)->GetRow0(); } //_____________________________________________________________________________ Double_t AliTRDparameter::GetCol0(Int_t p) const { // // Returns the position of the border of the first pad in a column // return GetPadPlane(p,0)->GetCol0(); } //_____________________________________________________________________________ Double_t AliTRDparameter::CrossTalk(Double_t time) const { // // Applies the pad-pad capacitive cross talk // Int_t iBin = ((Int_t) ((time - fTRFlo) / fTRFwid)); if ((iBin >= 0) && (iBin < fTRFbin)) { return fCTsmp[iBin]; } else { return 0.0; } } //_____________________________________________________________________________ void AliTRDparameter::PrintDriftVelocity() { // // Prints the used drift velocity // printf(" Driftvelocity = %.3f\n" ,fDriftVelocity); } //_____________________________________________________________________________ Double_t AliTRDparameter::TimeStruct(Double_t dist, Double_t z) const { // // Applies the time structure of the drift cells (by C.Lippmann). // The drift time of electrons to the anode wires depends on the // distance to the wire (z) and on the position in the drift region. // // input : // dist = radial distance from (cathode) pad plane [cm] // z = distance from anode wire (parallel to cathode planes) [cm] // // output : // tdrift = the drift time of an electron at the given position // // We interpolate between the drift time values at the two drift // velocities fVDlo and fVDhi, being smaller and larger than // fDriftVelocity. We use the two stored drift time maps fTimeStruct1 // and fTimeStruct2, calculated for the two mentioned drift velocities. // // indices: Int_t r1 = (Int_t)(10*dist); Int_t r2 = r1+1; if (r1<0) r1 = 0; if (r1>37) r1 = 37; const Int_t kz1 = (Int_t)(100*z/2.5); const Int_t kz2 = kz1+1; if (r1<0 || r1>37 || kz1<0 || kz1>10) { printf(" Warning. Indices out of range: "); printf("dist=%.2f, z=%.2f, r1=%d, kz1=%d\n",dist,z,r1,kz1); } const Float_t ky111 = fTimeStruct1[r1+38*kz1]; const Float_t ky221 = (r2 <= 37 && kz2 <= 10) ? fTimeStruct1[r2+38*kz2] : fTimeStruct1[37+38*10]; const Float_t ky121 = (kz2 <= 10) ? fTimeStruct1[r1+38*kz2] : fTimeStruct1[r1+38*10]; const Float_t ky211 = (r2 <= 37) ? fTimeStruct1[r2+38*kz1] : fTimeStruct1[37+38*kz1]; // 2D Interpolation, lower drift time map const Float_t ky11 = (ky211-ky111)*10*dist + ky111 - (ky211-ky111)*r1; const Float_t ky21 = (ky221-ky121)*10*dist + ky121 - (ky221-ky121)*r1; const Float_t ky112 = fTimeStruct2[r1+38*kz1]; const Float_t ky222 = (r2 <= 37 && kz2 <= 10) ? fTimeStruct2[r2+38*kz2] : fTimeStruct2[37+38*10]; const Float_t ky122 = (kz2 <= 10) ? fTimeStruct2[r1+38*kz2] : fTimeStruct2[r1+38*10]; const Float_t ky212 = (r2 <= 37) ? fTimeStruct2[r2+38*kz1] : fTimeStruct2[37+38*kz1]; // 2D Interpolation, larger drift time map const Float_t ky12 = (ky212-ky112)*10*dist + ky112 - (ky212-ky112)*r1; const Float_t ky22 = (ky222-ky122)*10*dist + ky122 - (ky222-ky122)*r1; // dist now is the drift distance to the anode wires (negative if electrons are // between anode wire plane and cathode pad plane) dist -= AliTRDgeometry::AmThick()/2.0; // Get the drift times for the drift velocities fVDlo and fVDhi const Float_t ktdrift1 = ( TMath::Abs(dist)>0.005 || z>0.005 ) ? (ky21-ky11)*100*z/2.5+ky11-(ky21-ky11)*kz1 : 0.0; const Float_t ktdrift2 = ( TMath::Abs(dist)>0.005 || z>0.005 ) ? (ky22-ky12)*100*z/2.5+ky12-(ky22-ky12)*kz1 : 0.0; // 1D Interpolation between the values at fVDlo and fVDhi Float_t a = (ktdrift2 - ktdrift1) / (fVDhi - fVDlo); Float_t b = ktdrift2 - a * fVDhi; //printf("(%.2f, %.2f): %f, %f -> %f\n", // dist+AliTRDgeometry::AmThick()/2.0, z, ktdrift1, ktdrift2, a*fDriftVelocity+b); return a * fDriftVelocity + b; } //_____________________________________________________________________________ Int_t AliTRDparameter::Diffusion(Double_t driftlength, Double_t *xyz) { // // Applies the diffusion smearing to the position of a single electron // Float_t driftSqrt = TMath::Sqrt(driftlength); Float_t sigmaT = driftSqrt * fDiffusionT; Float_t sigmaL = driftSqrt * fDiffusionL; xyz[0] = gRandom->Gaus(xyz[0], sigmaL * fLorentzFactor); xyz[1] = gRandom->Gaus(xyz[1], sigmaT * fLorentzFactor); xyz[2] = gRandom->Gaus(xyz[2], sigmaT); return 1; } //_____________________________________________________________________________ Int_t AliTRDparameter::ExB(Double_t driftlength, Double_t *xyz) const { // // Applies E x B effects to the position of a single electron // xyz[0] = xyz[0]; xyz[1] = xyz[1] + fOmegaTau * driftlength; xyz[2] = xyz[2]; return 1; } //_____________________________________________________________________________ Int_t AliTRDparameter::PadResponse(Double_t signal, Double_t dist , Int_t plane, Double_t *pad) const { // // Applies the pad response // const Int_t kNplan = AliTRDgeometry::kNplan; Int_t iBin = ((Int_t) (( - dist - fPRFlo) / fPRFwid)); Int_t iOff = plane * fPRFbin; Int_t iBin0 = iBin - fPRFpad + iOff; Int_t iBin1 = iBin + iOff; Int_t iBin2 = iBin + fPRFpad + iOff; pad[0] = 0.0; pad[1] = 0.0; pad[2] = 0.0; if ((iBin1 >= 0) && (iBin1 < (fPRFbin*kNplan))) { if (iBin0 >= 0) { pad[0] = signal * fPRFsmp[iBin0]; } pad[1] = signal * fPRFsmp[iBin1]; if (iBin2 < (fPRFbin*kNplan)) { pad[2] = signal * fPRFsmp[iBin2]; } return 1; } else { return 0; } } //_____________________________________________________________________________ Double_t AliTRDparameter::TimeResponse(Double_t time) const { // // Applies the preamp shaper time response // Int_t iBin = ((Int_t) ((time) / fTRFwid)); //Int_t iBin = ((Int_t) ((time - fTRFlo) / fTRFwid)); if ((iBin >= 0) && (iBin < fTRFbin)) { return fTRFsmp[iBin]; } else { return 0.0; } } //_____________________________________________________________________________ void AliTRDparameter::SampleTRF() { // // Samples the time response function // // New TRF from Venelin Angelov, simulated with CADENCE // Pad-ground capacitance = 25 pF // Pad-pad cross talk capacitance = 6 pF // Int_t ipos1; Int_t ipos2; Float_t diff; const Int_t kNpasa = 252; Float_t time[kNpasa] = { -0.220000, -0.210000, -0.200000, -0.190000 , -0.180000, -0.170000, -0.160000, -0.150000 , -0.140000, -0.130000, -0.120000, -0.110000 , -0.100000, -0.090000, -0.080000, -0.070000 , -0.060000, -0.050000, -0.040000, -0.030000 , -0.020000, -0.010000, -0.000000, 0.010000 , 0.020000, 0.030000, 0.040000, 0.050000 , 0.060000, 0.070000, 0.080000, 0.090000 , 0.100000, 0.110000, 0.120000, 0.130000 , 0.140000, 0.150000, 0.160000, 0.170000 , 0.180000, 0.190000, 0.200000, 0.210000 , 0.220000, 0.230000, 0.240000, 0.250000 , 0.260000, 0.270000, 0.280000, 0.290000 , 0.300000, 0.310000, 0.320000, 0.330000 , 0.340000, 0.350000, 0.360000, 0.370000 , 0.380000, 0.390000, 0.400000, 0.410000 , 0.420000, 0.430000, 0.440000, 0.450000 , 0.460000, 0.470000, 0.480000, 0.490000 , 0.500000, 0.510000, 0.520000, 0.530000 , 0.540000, 0.550000, 0.560000, 0.570000 , 0.580000, 0.590000, 0.600000, 0.610000 , 0.620000, 0.630000, 0.640000, 0.650000 , 0.660000, 0.670000, 0.680000, 0.690000 , 0.700000, 0.710000, 0.720000, 0.730000 , 0.740000, 0.750000, 0.760000, 0.770000 , 0.780000, 0.790000, 0.800000, 0.810000 , 0.820000, 0.830000, 0.840000, 0.850000 , 0.860000, 0.870000, 0.880000, 0.890000 , 0.900000, 0.910000, 0.920000, 0.930000 , 0.940000, 0.950000, 0.960000, 0.970000 , 0.980000, 0.990000, 1.000000, 1.010000 , 1.020000, 1.030000, 1.040000, 1.050000 , 1.060000, 1.070000, 1.080000, 1.090000 , 1.100000, 1.110000, 1.120000, 1.130000 , 1.140000, 1.150000, 1.160000, 1.170000 , 1.180000, 1.190000, 1.200000, 1.210000 , 1.220000, 1.230000, 1.240000, 1.250000 , 1.260000, 1.270000, 1.280000, 1.290000 , 1.300000, 1.310000, 1.320000, 1.330000 , 1.340000, 1.350000, 1.360000, 1.370000 , 1.380000, 1.390000, 1.400000, 1.410000 , 1.420000, 1.430000, 1.440000, 1.450000 , 1.460000, 1.470000, 1.480000, 1.490000 , 1.500000, 1.510000, 1.520000, 1.530000 , 1.540000, 1.550000, 1.560000, 1.570000 , 1.580000, 1.590000, 1.600000, 1.610000 , 1.620000, 1.630000, 1.640000, 1.650000 , 1.660000, 1.670000, 1.680000, 1.690000 , 1.700000, 1.710000, 1.720000, 1.730000 , 1.740000, 1.750000, 1.760000, 1.770000 , 1.780000, 1.790000, 1.800000, 1.810000 , 1.820000, 1.830000, 1.840000, 1.850000 , 1.860000, 1.870000, 1.880000, 1.890000 , 1.900000, 1.910000, 1.920000, 1.930000 , 1.940000, 1.950000, 1.960000, 1.970000 , 1.980000, 1.990000, 2.000000, 2.010000 , 2.020000, 2.030000, 2.040000, 2.050000 , 2.060000, 2.070000, 2.080000, 2.090000 , 2.100000, 2.110000, 2.120000, 2.130000 , 2.140000, 2.150000, 2.160000, 2.170000 , 2.180000, 2.190000, 2.200000, 2.210000 , 2.220000, 2.230000, 2.240000, 2.250000 , 2.260000, 2.270000, 2.280000, 2.290000 }; Float_t signal[kNpasa] = { 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000396 , 0.005096, 0.022877, 0.061891, 0.126614 , 0.215798, 0.324406, 0.444507, 0.566817 , 0.683465, 0.787089, 0.873159, 0.937146 , 0.979049, 0.999434, 1.000000, 0.983579 , 0.954134, 0.913364, 0.866365, 0.813703 , 0.759910, 0.706116, 0.653454, 0.603624 , 0.556625, 0.514156, 0.475085, 0.439977 , 0.408834, 0.380578, 0.355549, 0.333352 , 0.313647, 0.296093, 0.280351, 0.266195 , 0.253397, 0.241789, 0.231257, 0.221574 , 0.212627, 0.204417, 0.196772, 0.189581 , 0.182956, 0.176784, 0.171008, 0.165515 , 0.160419, 0.155606, 0.151076, 0.146716 , 0.142639, 0.138845, 0.135221, 0.131767 , 0.128482, 0.125368, 0.122424, 0.119592 , 0.116931, 0.114326, 0.111891, 0.109513 , 0.107248, 0.105096, 0.103058, 0.101019 , 0.099151, 0.097282, 0.095527, 0.093715 , 0.092129, 0.090544, 0.088958, 0.087429 , 0.086014, 0.084598, 0.083239, 0.081880 , 0.080634, 0.079388, 0.078143, 0.077010 , 0.075878, 0.074745, 0.073669, 0.072593 , 0.071574, 0.070612, 0.069649, 0.068686 , 0.067780, 0.066874, 0.066025, 0.065176 , 0.064326, 0.063533, 0.062684, 0.061948 , 0.061212, 0.060419, 0.059740, 0.059003 , 0.058324, 0.057644, 0.057022, 0.056342 , 0.055663, 0.055096, 0.054473, 0.053851 , 0.053284, 0.052718, 0.052152, 0.051585 , 0.051019, 0.050566, 0.050000, 0.049490 , 0.048981, 0.048528, 0.048018, 0.047508 , 0.047055, 0.046602, 0.046149, 0.045696 , 0.045300, 0.044904, 0.044451, 0.044054 , 0.043658, 0.043205, 0.042865, 0.042469 , 0.042072, 0.041733, 0.041336, 0.040997 , 0.040657, 0.040260, 0.039921, 0.039581 , 0.039241, 0.038958, 0.038618, 0.038335 , 0.037995, 0.037656, 0.037373, 0.037089 , 0.036806, 0.036467, 0.036183, 0.035900 , 0.035617, 0.035334, 0.035108, 0.034824 , 0.034541, 0.034315, 0.034032, 0.033805 , 0.033522, 0.033296, 0.033069, 0.032786 , 0.032559, 0.032333, 0.032106, 0.031880 , 0.031653, 0.031427, 0.031200, 0.030974 , 0.030804, 0.030578, 0.030351, 0.030125 , 0.029955, 0.029785, 0.029558, 0.029332 , 0.029162, 0.028992, 0.028766, 0.028596 , 0.028426, 0.028199, 0.028086, 0.027860 , 0.027746, 0.027633, 0.027463, 0.027293 , 0.027180, 0.027067, 0.026954, 0.026954 , 0.026840, 0.026727, 0.026727, 0.026614 , 0.026614, 0.026614, 0.026557, 0.026501 , 0.026501, 0.026501, 0.026501, 0.026501 , 0.026501, 0.026501, 0.026501, 0.026387 , 0.026387, 0.026387, 0.026387, 0.026387 , 0.026387, 0.026387, 0.026387, 0.026387 , 0.026387, 0.026387, 0.026387, 0.026387 , 0.026387, 0.026274, 0.026274, 0.026274 , 0.026274, 0.026274, 0.026274, 0.026274 , 0.026274, 0.026274, 0.026274, 0.026274 , 0.026274, 0.026274, 0.026274, 0.026161 }; Float_t xtalk[kNpasa] = { 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000113 , 0.000793, 0.003058, 0.007305, 0.013194 , 0.019706, 0.025821, 0.030634, 0.033465 , 0.034145, 0.032729, 0.029615, 0.025198 , 0.019989, 0.014496, 0.009003, 0.003964 , -0.000510, -0.004190, -0.007191, -0.009400 , -0.010872, -0.011835, -0.012288, -0.012288 , -0.012005, -0.011495, -0.010872, -0.010136 , -0.009343, -0.008607, -0.007871, -0.007191 , -0.006512, -0.005946, -0.005379, -0.004926 , -0.004473, -0.004077, -0.003737, -0.003398 , -0.003114, -0.002831, -0.002605, -0.002378 , -0.002208, -0.002039, -0.001869, -0.001699 , -0.001585, -0.001472, -0.001359, -0.001246 , -0.001132, -0.001019, -0.001019, -0.000906 , -0.000906, -0.000793, -0.000793, -0.000680 , -0.000680, -0.000680, -0.000566, -0.000566 , -0.000566, -0.000566, -0.000453, -0.000453 , -0.000453, -0.000453, -0.000453, -0.000453 , -0.000340, -0.000340, -0.000340, -0.000340 , -0.000340, -0.000340, -0.000340, -0.000340 , -0.000340, -0.000340, -0.000340, -0.000340 , -0.000340, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000227 , -0.000227, -0.000227, -0.000227, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, -0.000113 , -0.000113, -0.000113, -0.000113, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 , 0.000000, 0.000000, 0.000000, 0.000000 }; // increase CrossTalk to measurements for (Int_t ipasa = 0; ipasa < kNpasa; ipasa++) { xtalk[ipasa] *= 1.75; } if (fTRFsmp) delete [] fTRFsmp; fTRFsmp = new Float_t[fTRFbin]; if (fCTsmp) delete [] fCTsmp; fCTsmp = new Float_t[fTRFbin]; Float_t loTRF = TMath::Max(fTRFlo, time[0]); Float_t hiTRF = TMath::Min(fTRFhi, time[kNpasa-1]); Float_t binWidth = (hiTRF - loTRF) / ((Float_t) fTRFbin); // Take the linear interpolation for (Int_t iBin = 0; iBin < fTRFbin; iBin++) { Float_t bin = (((Float_t) iBin) + 0.5) * binWidth + loTRF; ipos1 = ipos2 = 0; diff = 0; do { diff = bin - time[ipos2++]; } while (diff > 0); ipos2--; if (ipos2 >= kNpasa) ipos2 = kNpasa - 1; ipos1 = ipos2 - 1; fTRFsmp[iBin] = signal[ipos2] + diff * (signal[ipos2] - signal[ipos1]) / ( time[ipos2] - time[ipos1]); fCTsmp[iBin] = xtalk[ipos2] + diff * (xtalk[ipos2] - xtalk[ipos1]) / ( time[ipos2] - time[ipos1]); } } //_____________________________________________________________________________ void AliTRDparameter::SampleTimeStruct() { // // Samples the timing structure of a drift cell // Drift Time data calculated with Garfield (by C.Lippmann) // // drift time maps are saved for some drift velocity values (in drift region): Float_t fVDsmp[8]; fVDsmp[0] = 1.032; fVDsmp[1] = 1.158; fVDsmp[2] = 1.299; fVDsmp[3] = 1.450; fVDsmp[4] = 1.610; fVDsmp[5] = 1.783; fVDsmp[6] = 1.959; fVDsmp[7] = 2.134; if ( fDriftVelocity < fVDsmp[0] ) { printf(" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n"); printf(" Drift Velocity too small (%.3f<%.3f)\n" , fDriftVelocity, fVDsmp[0]); printf(" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n"); fDriftVelocity = fVDsmp[0]; } else if ( fDriftVelocity > fVDsmp[7] ) { printf(" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n"); printf(" Drift Velocity too large (%.3f>%.3f)\n" , fDriftVelocity,fVDsmp[6]); printf(" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n"); fDriftVelocity = fVDsmp[7]; } const Int_t ktimebin = 38; const Int_t kZbin = 11; // Garfield simulation at UD = -1500V; vd = 1.032cm/microsec, = 525V/cm Float_t time1500[ktimebin][kZbin] = {{0.09170, 0.09205, 0.09306, 0.09475, 0.09716, 0.10035, 0.10445, 0.10993, 0.11838, 0.13986, 0.37858}, {0.06588, 0.06626, 0.06739, 0.06926, 0.07186, 0.07524, 0.07951, 0.08515, 0.09381, 0.11601, 0.35673}, {0.03946, 0.04003, 0.04171, 0.04435, 0.04780, 0.05193, 0.05680, 0.06306, 0.07290, 0.09873, 0.34748}, {0.01151, 0.01283, 0.01718, 0.02282, 0.02880, 0.03479, 0.04098, 0.04910, 0.06413, 0.10567, 0.36897}, {0.01116, 0.01290, 0.01721, 0.02299, 0.02863, 0.03447, 0.04074, 0.04984, 0.06839, 0.11625, 0.37277}, {0.03919, 0.03974, 0.04131, 0.04380, 0.04703, 0.05102, 0.05602, 0.06309, 0.07651, 0.10938, 0.36838}, {0.06493, 0.06560, 0.06640, 0.06802, 0.07051, 0.07392, 0.07853, 0.08510, 0.09690, 0.12621, 0.38058}, {0.09174, 0.09186, 0.09225, 0.09303, 0.09477, 0.00000, 0.11205, 0.11952, 0.13461, 0.16984, 0.43017}, {0.14356, 0.14494, 0.14959, 0.16002, 0.18328, 0.27981, 0.22785, 0.21240, 0.21948, 0.25965, 0.52392}, {0.23120, 0.23366, 0.24046, 0.25422, 0.28071, 0.36914, 0.32999, 0.31208, 0.31772, 0.35804, 0.62249}, {0.32686, 0.32916, 0.33646, 0.35053, 0.37710, 0.46292, 0.42773, 0.40948, 0.41497, 0.45527, 0.71955}, {0.42353, 0.42583, 0.43317, 0.44727, 0.47380, 0.55884, 0.52479, 0.50650, 0.51194, 0.55225, 0.81658}, {0.52038, 0.52271, 0.53000, 0.54415, 0.57064, 0.65545, 0.62172, 0.60341, 0.60885, 0.64915, 0.91339}, {0.61724, 0.61953, 0.62694, 0.64098, 0.66756, 0.75226, 0.71862, 0.70030, 0.70575, 0.74604, 1.01035}, {0.71460, 0.71678, 0.72376, 0.73786, 0.76447, 0.84913, 0.81551, 0.79720, 0.80264, 0.84292, 1.10723}, {0.81101, 0.81334, 0.82066, 0.83475, 0.86127, 0.94599, 0.91240, 0.89408, 0.89952, 0.93981, 1.20409}, {0.90788, 0.91023, 0.91752, 0.93163, 0.95815, 1.04293, 1.00929, 0.99096, 0.99640, 1.03669, 1.30106}, {1.00477, 1.00707, 1.01449, 1.02852, 1.05504, 1.13976, 1.10617, 1.08784, 1.09329, 1.13358, 1.39796}, {1.10166, 1.10397, 1.11130, 1.12541, 1.15257, 1.23672, 1.20307, 1.18472, 1.19018, 1.23046, 1.49486}, {1.19854, 1.20084, 1.20818, 1.22235, 1.24885, 1.33355, 1.29992, 1.28156, 1.28707, 1.32735, 1.59177}, {1.29544, 1.29780, 1.30507, 1.31917, 1.34575, 1.43073, 1.39681, 1.37851, 1.38396, 1.42377, 1.68854}, {1.39236, 1.39462, 1.40205, 1.41607, 1.44259, 1.52745, 1.49368, 1.47541, 1.48083, 1.52112, 1.78546}, {1.49314, 1.49149, 1.49885, 1.51297, 1.53949, 1.62420, 1.59016, 1.57231, 1.57772, 1.61800, 1.88048}, {1.58610, 1.58839, 1.59572, 1.60983, 1.63635, 1.72109, 1.68651, 1.66921, 1.67463, 1.71489, 1.97918}, {1.68400, 1.68529, 1.69261, 1.70671, 1.73331, 1.81830, 1.78341, 1.76605, 1.77150, 1.81179, 2.07608}, {1.77991, 1.78215, 1.78952, 1.80385, 1.83014, 1.91486, 1.88128, 1.86215, 1.86837, 1.90865, 2.17304}, {1.87674, 1.87904, 1.88647, 1.90052, 1.92712, 2.01173, 1.97812, 1.95905, 1.96527, 2.00710, 2.26979}, {1.97369, 1.97594, 1.98326, 1.99869, 2.02442, 2.10865, 2.07501, 2.05666, 2.06214, 2.10243, 2.36669}, {2.07052, 2.07281, 2.08016, 2.09425, 2.12132, 2.20555, 2.17182, 2.15341, 2.15904, 2.19933, 2.46363}, {2.16742, 2.16971, 2.17707, 2.19114, 2.21766, 2.30240, 2.26877, 2.25015, 2.25573, 2.29586, 2.56060}, {2.26423, 2.26659, 2.27396, 2.28803, 2.31456, 2.40828, 2.36567, 2.34705, 2.35282, 2.39765, 2.65744}, {2.36153, 2.36349, 2.37330, 2.38501, 2.41159, 2.49940, 2.46257, 2.44420, 2.44843, 2.48987, 2.75431}, {2.46558, 2.46035, 2.46822, 2.48181, 2.50849, 2.59630, 2.55947, 2.54112, 2.54513, 2.58677, 2.85094}, {2.56248, 2.55723, 2.56486, 2.57871, 2.60520, 2.68998, 2.65626, 2.63790, 2.64316, 2.68360, 2.94813}, {2.65178, 2.65441, 2.66153, 2.67556, 2.70210, 2.78687, 2.75319, 2.73463, 2.74032, 2.78060, 3.04503}, {2.74868, 2.75131, 2.75870, 2.77245, 2.79385, 2.88700, 2.85009, 2.83177, 2.83723, 2.87750, 3.14193}, {2.84574, 2.84789, 2.85560, 2.86935, 2.89075, 2.98060, 2.94576, 2.92868, 2.93356, 2.97436, 3.23868}, {2.94239, 2.94469, 2.95221, 2.96625, 2.99345, 3.07747, 3.04266, 3.02545, 3.03051, 3.07118, 3.33555}}; // Garfield simulation at UD = -1600V; vd = 1.158cm/microsec, = 558V/cm Float_t time1600[ktimebin][kZbin] = {{0.09169, 0.09203, 0.09305, 0.09473, 0.09714, 0.10032, 0.10441, 0.10990, 0.11835, 0.13986, 0.37845}, {0.06589, 0.06626, 0.06738, 0.06924, 0.07184, 0.07521, 0.07947, 0.08512, 0.09379, 0.11603, 0.35648}, {0.03947, 0.04003, 0.04171, 0.04434, 0.04778, 0.05190, 0.05678, 0.06304, 0.07292, 0.09876, 0.34759}, {0.01111, 0.01281, 0.01718, 0.02281, 0.02879, 0.03477, 0.04097, 0.04910, 0.06415, 0.10573, 0.36896}, {0.01120, 0.01311, 0.01721, 0.02279, 0.02862, 0.03446, 0.04074, 0.04981, 0.06825, 0.11595, 0.37255}, {0.03919, 0.03980, 0.04132, 0.04380, 0.04704, 0.05102, 0.05602, 0.06302, 0.07633, 0.10896, 0.36743}, {0.06531, 0.06528, 0.06631, 0.06805, 0.07053, 0.07392, 0.07853, 0.08505, 0.09669, 0.12578, 0.37967}, {0.09157, 0.09171, 0.09216, 0.09301, 0.09475, 0.00000, 0.11152, 0.11879, 0.13352, 0.16802, 0.42750}, {0.13977, 0.14095, 0.14509, 0.15433, 0.17534, 0.26406, 0.21660, 0.20345, 0.21113, 0.25067, 0.51434}, {0.21816, 0.22041, 0.22631, 0.23850, 0.26208, 0.34340, 0.30755, 0.29237, 0.29878, 0.33863, 0.60258}, {0.30344, 0.30547, 0.31241, 0.32444, 0.34809, 0.42696, 0.39464, 0.37919, 0.38546, 0.42530, 0.68926}, {0.38969, 0.39164, 0.39810, 0.41059, 0.43441, 0.51246, 0.48112, 0.46562, 0.47191, 0.51172, 0.77558}, {0.47592, 0.47799, 0.48442, 0.49689, 0.52061, 0.59855, 0.56752, 0.55201, 0.55826, 0.59808, 0.86202}, {0.56226, 0.56428, 0.57074, 0.58324, 0.60696, 0.68483, 0.65388, 0.63837, 0.64461, 0.68445, 0.94830}, {0.64881, 0.65063, 0.65709, 0.66958, 0.69331, 0.77117, 0.74023, 0.72472, 0.73098, 0.77079, 1.03486}, {0.73506, 0.73698, 0.74344, 0.75596, 0.77964, 0.85751, 0.82658, 0.81107, 0.81731, 0.85712, 1.12106}, {0.82132, 0.82333, 0.82979, 0.84228, 0.86608, 0.94386, 0.91293, 0.89742, 0.90367, 0.94335, 1.20737}, {0.90767, 0.90968, 0.91614, 0.92863, 0.95236, 1.03021, 0.99928, 0.98377, 0.99001, 1.02984, 1.29371}, {0.99410, 0.99602, 1.00257, 1.01498, 1.03869, 1.11720, 1.08563, 1.07011, 1.07637, 1.11621, 1.37873}, {1.08036, 1.08240, 1.08884, 1.10138, 1.12504, 1.20301, 1.17198, 1.15647, 1.16272, 1.20255, 1.46651}, {1.16670, 1.16872, 1.17525, 1.18783, 1.21139, 1.28934, 1.25833, 1.24281, 1.24909, 1.28889, 1.55275}, {1.25307, 1.25510, 1.26153, 1.27404, 1.29773, 1.37584, 1.34469, 1.32916, 1.33536, 1.37524, 1.63915}, {1.33942, 1.34146, 1.34788, 1.36040, 1.38410, 1.46438, 1.43105, 1.41537, 1.42176, 1.46158, 1.72538}, {1.42579, 1.42782, 1.43458, 1.44674, 1.47043, 1.55085, 1.51675, 1.50168, 1.50810, 1.54793, 1.81174}, {1.51207, 1.51454, 1.52060, 1.53307, 1.55684, 1.63478, 1.60336, 1.58820, 1.59446, 1.63414, 1.89814}, {1.59856, 1.60047, 1.60693, 1.61942, 1.64317, 1.72257, 1.69008, 1.67454, 1.68080, 1.72063, 1.98433}, {1.68481, 1.68682, 1.69330, 1.70584, 1.72949, 1.80752, 1.77643, 1.76089, 1.76716, 1.80692, 2.07069}, {1.77117, 1.77319, 1.77969, 1.79260, 1.81583, 1.89376, 1.86226, 1.84720, 1.85355, 1.89256, 2.15343}, {1.85748, 1.85967, 1.86605, 1.87848, 1.90222, 1.98010, 1.94913, 1.93271, 1.93981, 1.97968, 2.24355}, {1.94386, 1.94587, 1.95233, 1.96484, 1.98854, 2.06646, 2.03542, 2.01755, 2.02617, 2.06604, 2.32993}, {2.03022, 2.03230, 2.03868, 2.05134, 2.07488, 2.15367, 2.12178, 2.10391, 2.11252, 2.15432, 2.41623}, {2.11656, 2.11857, 2.12505, 2.13772, 2.16147, 2.23919, 2.20817, 2.19265, 2.20744, 2.23872, 2.49996}, {2.20291, 2.20611, 2.21137, 2.22387, 2.24758, 2.32563, 2.29450, 2.27901, 2.28525, 2.32507, 2.58897}, {2.28922, 2.29172, 2.29774, 2.31345, 2.33400, 2.41287, 2.38086, 2.36535, 2.37160, 2.40869, 2.67113}, {2.37572, 2.37764, 2.38410, 2.39803, 2.42046, 2.49817, 2.46721, 2.45171, 2.45794, 2.49505, 2.76061}, {2.46190, 2.46396, 2.47043, 2.48340, 2.50665, 2.58453, 2.55357, 2.53728, 2.54430, 2.58407, 2.84816}, {2.54833, 2.55032, 2.55679, 2.56976, 2.59312, 2.67103, 2.63993, 2.62364, 2.63062, 2.67040, 2.93444}, {2.63456, 2.63660, 2.64304, 2.65555, 2.67938, 2.75739, 2.72629, 2.71064, 2.71688, 2.75671, 3.01886}}; // Garfield simulation at UD = -1700V; vd = 1.299cm/microsec, = 590V/cm Float_t time1700[ktimebin][kZbin] = {{0.09167, 0.09201, 0.09302, 0.09471, 0.09712, 0.10029, 0.10438, 0.10986, 0.11832, 0.13986, 0.37824}, {0.06591, 0.06626, 0.06736, 0.06923, 0.07183, 0.07519, 0.07944, 0.08511, 0.09378, 0.11603, 0.35625}, {0.03946, 0.04003, 0.04170, 0.04433, 0.04777, 0.05189, 0.05676, 0.06301, 0.07291, 0.09880, 0.34724}, {0.01110, 0.01281, 0.01718, 0.02280, 0.02879, 0.03476, 0.04096, 0.04910, 0.06417, 0.10582, 0.36861}, {0.01115, 0.01294, 0.01721, 0.02276, 0.02862, 0.03447, 0.04074, 0.04980, 0.06812, 0.11565, 0.37231}, {0.03920, 0.03974, 0.04133, 0.04381, 0.04706, 0.05105, 0.05603, 0.06299, 0.07618, 0.10860, 0.36646}, {0.06498, 0.06529, 0.06634, 0.06808, 0.07055, 0.07395, 0.07852, 0.08500, 0.09650, 0.12532, 0.37850}, {0.09143, 0.09159, 0.09207, 0.09297, 0.09473, 0.00000, 0.11102, 0.11809, 0.13245, 0.16627, 0.42496}, {0.13646, 0.13750, 0.14112, 0.14926, 0.16806, 0.24960, 0.20627, 0.19536, 0.20366, 0.24256, 0.50557}, {0.20678, 0.20848, 0.21384, 0.22450, 0.24552, 0.32018, 0.28740, 0.27477, 0.28196, 0.32128, 0.58475}, {0.28287, 0.28461, 0.29020, 0.30108, 0.32224, 0.39467, 0.36500, 0.35217, 0.35926, 0.39860, 0.66194}, {0.35972, 0.36145, 0.36713, 0.37797, 0.39912, 0.47091, 0.44212, 0.42925, 0.43632, 0.47563, 0.73892}, {0.43667, 0.43841, 0.44413, 0.45494, 0.47607, 0.54780, 0.51912, 0.50627, 0.51334, 0.55254, 0.81595}, {0.51365, 0.51540, 0.52101, 0.53193, 0.55305, 0.62463, 0.59617, 0.58328, 0.59035, 0.62965, 0.89303}, {0.59064, 0.59240, 0.59801, 0.60893, 0.63009, 0.70169, 0.67317, 0.66028, 0.66735, 0.70666, 0.96995}, {0.66765, 0.66939, 0.67501, 0.68592, 0.70724, 0.77863, 0.75016, 0.73728, 0.74435, 0.78366, 1.04696}, {0.74464, 0.74636, 0.75200, 0.76293, 0.78405, 0.85561, 0.82716, 0.81427, 0.82133, 0.86064, 1.12396}, {0.82165, 0.82340, 0.82902, 0.83991, 0.86104, 0.93266, 0.90414, 0.89128, 0.89834, 0.93763, 1.20100}, {0.89863, 0.90042, 0.90659, 0.91705, 0.93805, 1.00960, 0.98115, 0.96825, 0.97533, 1.01462, 1.27801}, {0.97563, 0.97740, 0.98310, 0.99391, 1.01504, 1.08659, 1.05814, 1.04526, 1.05233, 1.09163, 1.35503}, {1.05276, 1.05451, 1.06002, 1.07090, 1.09099, 1.16357, 1.13516, 1.12225, 1.12933, 1.16863, 1.43195}, {1.12977, 1.13138, 1.13700, 1.14792, 1.16797, 1.24061, 1.21212, 1.19926, 1.20626, 1.24554, 1.50900}, {1.20664, 1.20839, 1.21400, 1.22490, 1.24606, 1.31772, 1.28914, 1.27382, 1.28329, 1.32262, 1.58550}, {1.28367, 1.28541, 1.29099, 1.30189, 1.32312, 1.39460, 1.36612, 1.34924, 1.36030, 1.39961, 1.66310}, {1.36064, 1.36249, 1.36799, 1.37896, 1.40004, 1.48030, 1.44314, 1.43032, 1.43731, 1.47659, 1.73442}, {1.43762, 1.43937, 1.44497, 1.45618, 1.47704, 1.54932, 1.52012, 1.50725, 1.51430, 1.55357, 1.81708}, {1.51462, 1.51937, 1.52203, 1.53316, 1.55403, 1.62572, 1.59713, 1.58424, 1.59128, 1.63061, 1.89406}, {1.59162, 1.59338, 1.59947, 1.60989, 1.63103, 1.70270, 1.67411, 1.66124, 1.66799, 1.70759, 1.97103}, {1.66874, 1.67037, 1.67597, 1.68687, 1.70814, 1.77969, 1.75112, 1.73806, 1.74530, 1.78457, 2.04794}, {1.74693, 1.74749, 1.75297, 1.76476, 1.78500, 1.85667, 1.82811, 1.81504, 1.82101, 1.86161, 2.12492}, {1.82260, 1.82437, 1.82995, 1.84174, 1.86202, 1.93372, 1.90509, 1.89202, 1.89930, 1.93859, 2.20189}, {1.89964, 1.90135, 1.90693, 1.91789, 1.93952, 2.01080, 1.98207, 1.96921, 1.97628, 2.01384, 2.27887}, {1.97662, 1.97917, 1.98611, 1.99487, 2.01601, 2.08778, 2.05846, 2.04623, 2.05330, 2.09244, 2.35585}, {2.05359, 2.05615, 2.06309, 2.07187, 2.09867, 2.16459, 2.13610, 2.12322, 2.13029, 2.16942, 2.43199}, {2.13063, 2.13233, 2.13795, 2.14886, 2.17008, 2.24199, 2.21310, 2.20020, 2.20727, 2.24659, 2.50983}, {2.20761, 2.20931, 2.21955, 2.22624, 2.24708, 2.32147, 2.29009, 2.27725, 2.28276, 2.32359, 2.58680}, {2.28459, 2.29108, 2.29202, 2.30286, 2.32007, 2.39559, 2.36683, 2.35422, 2.36119, 2.40058, 2.66081}, {2.36153, 2.36806, 2.36889, 2.37985, 2.40092, 2.47828, 2.44381, 2.43099, 2.43819, 2.47750, 2.73779}}; // Garfield simulation at UD = -1800V; vd = 1.450cm/microsec, = 623V/cm Float_t time1800[ktimebin][kZbin] = {{0.09166, 0.09199, 0.09300, 0.09470, 0.09709, 0.10026, 0.10434, 0.10983, 0.11831, 0.13987, 0.37802}, {0.06585, 0.06623, 0.06735, 0.06921, 0.07180, 0.07520, 0.07941, 0.08507, 0.09376, 0.11604, 0.35624}, {0.03945, 0.04004, 0.04169, 0.04432, 0.04776, 0.05187, 0.05674, 0.06300, 0.07290, 0.09884, 0.34704}, {0.01108, 0.01287, 0.01717, 0.02280, 0.02880, 0.03476, 0.04095, 0.04909, 0.06419, 0.10589, 0.36843}, {0.01115, 0.01287, 0.01720, 0.02276, 0.02862, 0.03448, 0.04073, 0.04973, 0.06799, 0.11535, 0.37224}, {0.03918, 0.03975, 0.04134, 0.04382, 0.04707, 0.05105, 0.05603, 0.06296, 0.07605, 0.10822, 0.36560}, {0.06498, 0.06532, 0.06635, 0.06809, 0.07058, 0.07395, 0.07855, 0.08495, 0.09632, 0.12488, 0.37730}, {0.09130, 0.09160, 0.09199, 0.09300, 0.09472, 0.00000, 0.11059, 0.11747, 0.13146, 0.16462, 0.42233}, {0.13364, 0.13449, 0.13767, 0.14481, 0.16147, 0.23635, 0.19706, 0.18812, 0.19704, 0.23520, 0.49749}, {0.19698, 0.19844, 0.20311, 0.21236, 0.23082, 0.29920, 0.26936, 0.25927, 0.26732, 0.30601, 0.56871}, {0.26518, 0.26670, 0.27160, 0.28099, 0.29955, 0.36597, 0.33885, 0.32858, 0.33653, 0.37524, 0.63801}, {0.33441, 0.33553, 0.34040, 0.34987, 0.36841, 0.43428, 0.40797, 0.39763, 0.40556, 0.44425, 0.70698}, {0.40296, 0.40447, 0.40934, 0.41881, 0.43737, 0.50306, 0.47695, 0.46662, 0.47455, 0.51329, 0.77600}, {0.47296, 0.47344, 0.47830, 0.48779, 0.50632, 0.57200, 0.54593, 0.53559, 0.54351, 0.58222, 0.84489}, {0.54089, 0.54264, 0.54727, 0.55673, 0.57529, 0.64094, 0.61490, 0.60457, 0.61249, 0.65118, 0.91394}, {0.60987, 0.61138, 0.61624, 0.62573, 0.64428, 0.70989, 0.68397, 0.67354, 0.68147, 0.72015, 0.98291}, {0.67883, 0.68035, 0.68521, 0.69469, 0.71324, 0.77896, 0.75287, 0.74251, 0.75043, 0.78912, 1.04458}, {0.74780, 0.74932, 0.75421, 0.76367, 0.78221, 0.84785, 0.82185, 0.81148, 0.81941, 0.85811, 1.12085}, {0.81690, 0.81830, 0.82316, 0.83263, 0.85120, 0.91683, 0.89077, 0.88045, 0.88837, 0.92707, 1.18976}, {0.88574, 0.88726, 0.89228, 0.90198, 0.92017, 0.98578, 0.95974, 0.94947, 0.95734, 0.99604, 1.25873}, {0.95493, 0.95624, 0.96110, 0.97058, 0.98913, 1.05481, 1.02873, 1.01839, 1.02631, 1.06503, 1.32772}, {1.02392, 1.02524, 1.03008, 1.03955, 1.05810, 1.12378, 1.09757, 1.08605, 1.09530, 1.13399, 1.39669}, {1.09270, 1.09418, 1.09911, 1.10854, 1.12714, 1.19281, 1.16502, 1.15633, 1.16427, 1.20271, 1.46574}, {1.16168, 1.16323, 1.16801, 1.17772, 1.19604, 1.26190, 1.23399, 1.22531, 1.23323, 1.27194, 1.53475}, {1.23061, 1.23214, 1.23698, 1.24669, 1.26503, 1.33073, 1.30461, 1.29428, 1.30220, 1.34091, 1.60372}, {1.29960, 1.30110, 1.30596, 1.31544, 1.33398, 1.39962, 1.37228, 1.36323, 1.37121, 1.40988, 1.67273}, {1.36851, 1.37007, 1.37512, 1.38441, 1.40297, 1.46865, 1.44256, 1.43222, 1.44017, 1.47878, 1.74155}, {1.43752, 1.43904, 1.44773, 1.45338, 1.47220, 1.53759, 1.51136, 1.50119, 1.50914, 1.54775, 1.81050}, {1.50646, 1.50802, 1.51288, 1.52237, 1.54097, 1.60697, 1.58049, 1.57018, 1.57811, 1.61678, 1.87947}, {1.57545, 1.57720, 1.58185, 1.59134, 1.60996, 1.67787, 1.64929, 1.63914, 1.64707, 1.68570, 1.94851}, {1.64442, 1.64617, 1.65081, 1.66035, 1.67893, 1.74684, 1.71826, 1.70745, 1.71604, 1.75310, 2.01748}, {1.71337, 1.71513, 1.71978, 1.72932, 1.74645, 1.81346, 1.78739, 1.77642, 1.78501, 1.82151, 2.08644}, {1.78238, 1.78410, 1.78876, 1.79824, 1.81678, 1.88332, 1.85639, 1.84262, 1.85397, 1.89270, 2.15533}, {1.85135, 1.85306, 1.85778, 1.86728, 1.88580, 1.95615, 1.92536, 1.91171, 1.92283, 1.96165, 2.22428}, {1.92774, 1.92184, 1.92672, 1.93618, 1.95477, 2.02048, 1.99427, 1.98068, 1.99192, 2.03062, 2.29338}, {1.98929, 1.99081, 1.99567, 2.00515, 2.02373, 2.08987, 2.06332, 2.05249, 2.05939, 2.09928, 2.36227}, {2.05829, 2.05978, 2.06464, 2.07414, 2.09272, 2.15850, 2.12928, 2.12194, 2.12987, 2.16825, 2.43083}, {2.12726, 2.12869, 2.13360, 2.14425, 2.16160, 2.22872, 2.20118, 2.19078, 2.19876, 2.23416, 2.50007}}; // Garfield simulation at UD = -1900V; vd = 1.610cm/microsec, = 655V/cm Float_t time1900[ktimebin][kZbin] = {{0.09166, 0.09198, 0.09298, 0.09467, 0.09707, 0.10023, 0.10431, 0.10980, 0.11828, 0.13988, 0.37789}, {0.06584, 0.06622, 0.06735, 0.06920, 0.07179, 0.07514, 0.07938, 0.08505, 0.09374, 0.11606, 0.35599}, {0.03945, 0.04002, 0.04169, 0.04432, 0.04775, 0.05185, 0.05672, 0.06298, 0.07290, 0.09888, 0.34695}, {0.01109, 0.01281, 0.01717, 0.02279, 0.02878, 0.03476, 0.04094, 0.04909, 0.06421, 0.10597, 0.36823}, {0.01115, 0.01287, 0.01720, 0.02294, 0.02862, 0.03448, 0.04074, 0.04973, 0.06783, 0.11506, 0.37206}, {0.03940, 0.03975, 0.04135, 0.04386, 0.04708, 0.05106, 0.05604, 0.06293, 0.07592, 0.10787, 0.36484}, {0.06500, 0.06534, 0.06638, 0.06811, 0.07060, 0.07413, 0.07852, 0.08491, 0.09614, 0.12446, 0.37626}, {0.09119, 0.09140, 0.09194, 0.09293, 0.09471, 0.00000, 0.11013, 0.11685, 0.13050, 0.16302, 0.41991}, {0.13111, 0.13190, 0.13466, 0.14091, 0.15554, 0.22409, 0.18846, 0.18167, 0.19113, 0.22854, 0.48995}, {0.18849, 0.18975, 0.19380, 0.20185, 0.21797, 0.28050, 0.25368, 0.24575, 0.25446, 0.29249, 0.55442}, {0.24995, 0.25125, 0.25563, 0.26366, 0.27986, 0.34065, 0.31605, 0.30815, 0.31680, 0.35482, 0.61697}, {0.31187, 0.31324, 0.31745, 0.32580, 0.34205, 0.40217, 0.37825, 0.37031, 0.37897, 0.41696, 0.67890}, {0.37401, 0.37531, 0.37955, 0.38777, 0.40395, 0.46408, 0.44037, 0.43242, 0.44108, 0.47906, 0.74122}, {0.43610, 0.43741, 0.44161, 0.44986, 0.46604, 0.52614, 0.50248, 0.49452, 0.50316, 0.54116, 0.80326}, {0.49820, 0.49988, 0.50372, 0.51196, 0.52814, 0.58822, 0.56459, 0.55661, 0.56527, 0.60326, 0.86526}, {0.56032, 0.56161, 0.56582, 0.57408, 0.59024, 0.65032, 0.62670, 0.61872, 0.62737, 0.66537, 0.92749}, {0.62240, 0.62371, 0.62792, 0.63624, 0.65236, 0.71241, 0.68881, 0.68081, 0.68947, 0.72750, 0.98941}, {0.68449, 0.68581, 0.69002, 0.69828, 0.71444, 0.77452, 0.75089, 0.74295, 0.75157, 0.78957, 1.05157}, {0.74660, 0.74790, 0.75212, 0.76036, 0.77654, 0.83748, 0.81299, 0.80501, 0.81193, 0.85168, 1.11375}, {0.80870, 0.81017, 0.81423, 0.82246, 0.83867, 0.89908, 0.87509, 0.86660, 0.87577, 0.91376, 1.17586}, {0.87080, 0.87233, 0.87632, 0.88458, 0.90074, 0.96083, 0.93718, 0.92922, 0.93787, 0.97588, 1.23794}, {0.93291, 0.93422, 0.93844, 0.94667, 0.96293, 1.02295, 0.99929, 0.99127, 0.99997, 1.03797, 1.29995}, {0.99500, 0.99645, 1.00308, 1.00877, 1.02497, 1.08504, 1.06140, 1.05343, 1.06203, 1.10006, 1.36216}, {1.05712, 1.05926, 1.06262, 1.07092, 1.08706, 1.14754, 1.12350, 1.11550, 1.12417, 1.16218, 1.42427}, {1.11921, 1.12059, 1.12473, 1.13297, 1.14916, 1.21140, 1.18560, 1.17284, 1.18625, 1.22414, 1.48629}, {1.18140, 1.18262, 1.18690, 1.19508, 1.21125, 1.27139, 1.24164, 1.23495, 1.24838, 1.28634, 1.54852}, {1.24340, 1.24473, 1.24901, 1.25732, 1.27336, 1.33358, 1.30793, 1.30179, 1.31047, 1.34848, 1.61066}, {1.30551, 1.30684, 1.31104, 1.32056, 1.33553, 1.39609, 1.37004, 1.36392, 1.37045, 1.41057, 1.67259}, {1.36755, 1.36892, 1.37315, 1.39148, 1.39755, 1.45820, 1.43215, 1.42602, 1.43467, 1.47268, 1.73477}, {1.42966, 1.43101, 1.43549, 1.45359, 1.45976, 1.52031, 1.49601, 1.48811, 1.49677, 1.53477, 1.79691}, {1.49180, 1.49321, 1.49760, 1.51570, 1.52175, 1.58185, 1.55771, 1.55023, 1.55888, 1.59672, 1.85501}, {1.55391, 1.55527, 1.55943, 1.57782, 1.58391, 1.64395, 1.62008, 1.61233, 1.62085, 1.65883, 1.92091}, {1.61599, 1.61732, 1.62154, 1.63993, 1.64612, 1.70608, 1.68237, 1.67108, 1.68301, 1.72110, 1.97931}, {1.67808, 1.67948, 1.68364, 1.70204, 1.70823, 1.76858, 1.74404, 1.73539, 1.74512, 1.78321, 2.04522}, {1.74019, 1.74152, 1.74573, 1.76415, 1.77015, 1.83040, 1.80615, 1.79366, 1.80723, 1.84509, 2.10742}, {1.80235, 1.80362, 1.80783, 1.82626, 1.83227, 1.89246, 1.86795, 1.85405, 1.86938, 1.90720, 2.16953}, {1.86442, 1.86572, 1.86994, 1.88837, 1.89438, 1.95445, 1.93006, 1.92283, 1.93148, 1.96931, 2.23147}, {1.92700, 1.92783, 1.93197, 1.95049, 1.95649, 2.01668, 1.99217, 1.98486, 1.99352, 2.03143, 2.29358}}; // Garfield simulation at UD = -2000V; vd = 1.783cm/microsec, = 688V/cm Float_t time2000[ktimebin][kZbin] = {{0.09176, 0.09196, 0.09296, 0.09465, 0.09704, 0.10020, 0.10427, 0.10977, 0.11825, 0.13988, 0.37774}, {0.06583, 0.06620, 0.06735, 0.06918, 0.07177, 0.07513, 0.07936, 0.08503, 0.09372, 0.11606, 0.35586}, {0.03944, 0.04001, 0.04170, 0.04431, 0.04774, 0.05184, 0.05670, 0.06296, 0.07291, 0.09893, 0.34680}, {0.01108, 0.01281, 0.01719, 0.02279, 0.02879, 0.03474, 0.04093, 0.04908, 0.06422, 0.10605, 0.36800}, {0.01114, 0.01287, 0.01720, 0.02276, 0.02863, 0.03449, 0.04073, 0.04970, 0.06774, 0.11478, 0.37179}, {0.03925, 0.03977, 0.04135, 0.04386, 0.04711, 0.05108, 0.05604, 0.06290, 0.07580, 0.10748, 0.36386}, {0.06501, 0.06536, 0.06640, 0.06814, 0.07062, 0.07398, 0.07852, 0.08487, 0.09598, 0.12405, 0.37519}, {0.09109, 0.09127, 0.09188, 0.09292, 0.09472, 0.00000, 0.10964, 0.11630, 0.12960, 0.16150, 0.41765}, {0.12898, 0.12968, 0.13209, 0.13749, 0.15034, 0.21286, 0.18088, 0.17590, 0.18591, 0.22254, 0.48315}, {0.18122, 0.18227, 0.18574, 0.19263, 0.20674, 0.26376, 0.23960, 0.23375, 0.24316, 0.28047, 0.54179}, {0.23674, 0.23784, 0.24142, 0.24847, 0.26264, 0.31810, 0.29602, 0.29008, 0.29944, 0.33675, 0.59795}, {0.29279, 0.29382, 0.29742, 0.30448, 0.31865, 0.37364, 0.35215, 0.34629, 0.35555, 0.39286, 0.65411}, {0.34875, 0.34987, 0.35346, 0.36054, 0.37472, 0.42956, 0.40825, 0.40229, 0.41167, 0.44894, 0.71033}, {0.40484, 0.40594, 0.40954, 0.41660, 0.43077, 0.48560, 0.46433, 0.45840, 0.46772, 0.50500, 0.76632}, {0.46090, 0.46201, 0.46560, 0.47267, 0.48684, 0.54167, 0.52041, 0.51449, 0.52382, 0.56108, 0.82227}, {0.51698, 0.51809, 0.52173, 0.52874, 0.54291, 0.59776, 0.57646, 0.57052, 0.57986, 0.61717, 0.87836}, {0.57306, 0.57418, 0.57782, 0.58513, 0.59899, 0.65380, 0.63255, 0.62661, 0.63594, 0.67325, 0.93460}, {0.62912, 0.63024, 0.63383, 0.64103, 0.65506, 0.70988, 0.68484, 0.68267, 0.69202, 0.72878, 0.99046}, {0.68521, 0.68633, 0.68990, 0.69699, 0.71115, 0.76595, 0.74468, 0.73872, 0.74814, 0.78538, 1.04674}, {0.74127, 0.74239, 0.74605, 0.75303, 0.77022, 0.82204, 0.80078, 0.79484, 0.80416, 0.84147, 1.10261}, {0.79736, 0.79846, 0.80206, 0.80947, 0.82330, 0.87813, 0.85688, 0.85087, 0.86023, 0.89752, 1.15874}, {0.85342, 0.85454, 0.85815, 0.86519, 0.87936, 0.93417, 0.91293, 0.90428, 0.91631, 0.95360, 1.20760}, {0.90949, 0.91061, 0.91423, 0.92128, 0.93544, 0.99026, 0.96807, 0.96305, 0.97239, 1.00967, 1.27078}, {0.96556, 0.96669, 0.97111, 0.97734, 0.99151, 1.04664, 1.02508, 1.01879, 1.02846, 1.06167, 1.32695}, {1.02167, 1.02279, 1.02656, 1.03341, 1.04759, 1.10242, 1.08115, 1.07003, 1.08453, 1.12184, 1.38304}, {1.07776, 1.07883, 1.08242, 1.08950, 1.10384, 1.16422, 1.13725, 1.13133, 1.14061, 1.17793, 1.43910}, {1.13379, 1.13492, 1.13864, 1.14567, 1.15973, 1.21455, 1.19323, 1.18734, 1.19668, 1.23401, 1.49528}, {1.18988, 1.19098, 1.19457, 1.20164, 1.21582, 1.27064, 1.24937, 1.24044, 1.25275, 1.29004, 1.55137}, {1.24592, 1.24706, 1.25087, 1.25773, 1.27188, 1.32670, 1.30544, 1.29953, 1.30883, 1.34613, 1.60743}, {1.30202, 1.30313, 1.30673, 1.31381, 1.32797, 1.38278, 1.36151, 1.35167, 1.36490, 1.40221, 1.66306}, {1.35809, 1.35921, 1.36282, 1.36986, 1.38403, 1.43888, 1.41760, 1.41174, 1.42083, 1.45830, 1.71915}, {1.41419, 1.41528, 1.41890, 1.42595, 1.44011, 1.49496, 1.47368, 1.46769, 1.47706, 1.51436, 1.77523}, {1.47131, 1.47141, 1.47494, 1.48850, 1.49620, 1.55137, 1.52977, 1.51820, 1.53315, 1.57042, 1.83158}, {1.52635, 1.52750, 1.53103, 1.53814, 1.55228, 1.60736, 1.58503, 1.57986, 1.58920, 1.62649, 1.88767}, {1.58418, 1.58355, 1.58711, 1.59526, 1.60833, 1.66316, 1.63345, 1.63261, 1.64556, 1.68204, 1.94359}, {1.64027, 1.63958, 1.64489, 1.65024, 1.66443, 1.71925, 1.69794, 1.69201, 1.70143, 1.73865, 1.99968}, {1.69450, 1.69566, 1.69940, 1.70697, 1.71841, 1.77819, 1.75396, 1.74814, 1.75743, 1.79083, 2.05427}, {1.75054, 1.75221, 1.75527, 1.76306, 1.77662, 1.83428, 1.81006, 1.81173, 1.81345, 1.85076, 2.10289}}; // Garfield simulation at UD = -2100V; vd = 1.959cm/microsec, = 720V/cm Float_t time2100[ktimebin][kZbin] = {{0.09160, 0.09194, 0.09294, 0.09462, 0.09701, 0.10017, 0.10424, 0.10974, 0.11823, 0.13988, 0.37762}, {0.06585, 0.06619, 0.06731, 0.06916, 0.07174, 0.07509, 0.07933, 0.08500, 0.09370, 0.11609, 0.35565}, {0.03960, 0.04001, 0.04171, 0.04430, 0.04774, 0.05182, 0.05668, 0.06294, 0.07291, 0.09896, 0.34676}, {0.01109, 0.01280, 0.01716, 0.02279, 0.02876, 0.03474, 0.04096, 0.04908, 0.06424, 0.10612, 0.36790}, {0.01114, 0.01285, 0.01719, 0.02287, 0.02863, 0.03449, 0.04073, 0.04964, 0.06759, 0.11446, 0.37162}, {0.03922, 0.03977, 0.04146, 0.04386, 0.04711, 0.05109, 0.05605, 0.06287, 0.07575, 0.10713, 0.36298}, {0.06504, 0.06538, 0.06641, 0.06818, 0.07064, 0.07426, 0.07852, 0.08483, 0.09581, 0.12363, 0.37424}, {0.09103, 0.09129, 0.09186, 0.09291, 0.09476, 0.00000, 0.10923, 0.11578, 0.12873, 0.16005, 0.41525}, {0.12723, 0.12777, 0.12988, 0.13458, 0.14579, 0.20264, 0.17421, 0.17078, 0.18132, 0.21708, 0.47699}, {0.17508, 0.17601, 0.17897, 0.18487, 0.19698, 0.24881, 0.22737, 0.22337, 0.23348, 0.27000, 0.53032}, {0.22571, 0.22663, 0.22969, 0.23570, 0.24787, 0.29826, 0.27871, 0.27462, 0.28471, 0.32122, 0.58166}, {0.27664, 0.27759, 0.28067, 0.28669, 0.29891, 0.34898, 0.32982, 0.32570, 0.33576, 0.37229, 0.63268}, {0.32766, 0.32862, 0.33170, 0.33778, 0.34988, 0.39973, 0.38088, 0.37675, 0.38680, 0.42333, 0.68159}, {0.37872, 0.37966, 0.38275, 0.38875, 0.40093, 0.45073, 0.43192, 0.42780, 0.43786, 0.47438, 0.73480}, {0.42974, 0.43070, 0.43378, 0.43982, 0.45196, 0.50177, 0.48297, 0.47884, 0.48889, 0.52544, 0.78581}, {0.48081, 0.48175, 0.48482, 0.49084, 0.50302, 0.55290, 0.53398, 0.52988, 0.53994, 0.57647, 0.83687}, {0.53645, 0.53295, 0.53586, 0.54188, 0.55408, 0.60398, 0.58504, 0.58092, 0.59100, 0.62768, 0.88773}, {0.58345, 0.58409, 0.58690, 0.59292, 0.60510, 0.65562, 0.63609, 0.63197, 0.64203, 0.67856, 0.93907}, {0.63397, 0.63490, 0.63795, 0.64403, 0.65613, 0.70612, 0.68714, 0.68301, 0.69294, 0.72955, 0.99000}, {0.68496, 0.68592, 0.68899, 0.69504, 0.70733, 0.75708, 0.73818, 0.73405, 0.74412, 0.78064, 1.04100}, {0.73600, 0.73696, 0.74003, 0.74624, 0.75828, 0.80805, 0.78904, 0.78512, 0.79517, 0.83152, 1.09205}, {0.78709, 0.78801, 0.79108, 0.79709, 0.80931, 0.85906, 0.84027, 0.83614, 0.84621, 0.88269, 1.14058}, {0.83808, 0.83905, 0.84215, 0.84816, 0.86031, 0.91011, 0.89139, 0.88718, 0.89725, 0.93377, 1.19413}, {0.88916, 0.89010, 0.89320, 0.89920, 0.91136, 0.96117, 0.94235, 0.93822, 0.94828, 0.98480, 1.24538}, {0.94036, 0.94113, 0.94422, 0.95023, 0.96241, 1.01220, 0.99310, 0.98927, 0.99933, 1.03585, 1.29629}, {0.99139, 0.99220, 0.99525, 1.00127, 1.01344, 1.06324, 1.04451, 1.04033, 1.04836, 1.08690, 1.34727}, {1.04261, 1.04325, 1.04628, 1.05232, 1.06448, 1.12090, 1.09546, 1.09136, 1.10142, 1.13795, 1.39831}, {1.09331, 1.09429, 1.09742, 1.10336, 1.11557, 1.16547, 1.14658, 1.13642, 1.15247, 1.18898, 1.44936}, {1.14436, 1.14539, 1.14847, 1.15443, 1.16662, 1.21794, 1.19763, 1.19329, 1.20349, 1.23956, 1.50043}, {1.19533, 1.19651, 1.19943, 1.20548, 1.21666, 1.26753, 1.24862, 1.24434, 1.25455, 1.29106, 1.55142}, {1.24638, 1.24756, 1.25046, 1.25648, 1.26764, 1.31858, 1.29967, 1.29538, 1.30499, 1.34211, 1.60250}, {1.29747, 1.29847, 1.30175, 1.30753, 1.31869, 1.36969, 1.35069, 1.34656, 1.35663, 1.39316, 1.64644}, {1.35537, 1.34952, 1.35255, 1.35869, 1.36973, 1.41387, 1.40173, 1.39761, 1.40768, 1.44396, 1.70238}, {1.39956, 1.40056, 1.40380, 1.40961, 1.42178, 1.46492, 1.45278, 1.45423, 1.45872, 1.49522, 1.75557}, {1.45080, 1.45159, 1.45463, 1.46109, 1.47287, 1.52263, 1.50382, 1.50050, 1.50977, 1.54502, 1.80670}, {1.50165, 1.50264, 1.50570, 1.51214, 1.52233, 1.57370, 1.55484, 1.55155, 1.56080, 1.59731, 1.85778}, {1.55269, 1.55364, 1.55675, 1.56274, 1.57491, 1.62598, 1.60590, 1.60259, 1.61185, 1.64836, 1.90883}, {1.60368, 1.60469, 1.60779, 1.61373, 1.62596, 1.67738, 1.65651, 1.65249, 1.66290, 1.69936, 1.95959}}; // Garfield simulation at UD = -2200V; vd = 2.134cm/microsec, = 753V/cm Float_t time2200[ktimebin][kZbin] = {{0.09162, 0.09194, 0.09292, 0.09460, 0.09702, 0.10014, 0.10421, 0.10971, 0.11820, 0.13990, 0.37745}, {0.06581, 0.06618, 0.06730, 0.06915, 0.07173, 0.07507, 0.07931, 0.08497, 0.09368, 0.11609, 0.35560}, {0.03947, 0.04001, 0.04167, 0.04429, 0.04772, 0.05183, 0.05667, 0.06293, 0.07292, 0.09900, 0.34673}, {0.01111, 0.01280, 0.01716, 0.02279, 0.02876, 0.03473, 0.04091, 0.04907, 0.06426, 0.10620, 0.36766}, {0.01113, 0.01285, 0.01719, 0.02276, 0.02863, 0.03452, 0.04076, 0.04960, 0.06745, 0.11419, 0.37139}, {0.03923, 0.03978, 0.04137, 0.04387, 0.04713, 0.05110, 0.05605, 0.06284, 0.07551, 0.10677, 0.36210}, {0.06505, 0.06540, 0.06644, 0.06820, 0.07069, 0.07401, 0.07852, 0.08479, 0.09565, 0.12325, 0.37313}, {0.09107, 0.09127, 0.09181, 0.09291, 0.09474, 0.00000, 0.10883, 0.11528, 0.12789, 0.15865, 0.41313}, {0.12559, 0.12622, 0.12800, 0.13206, 0.14166, 0.19331, 0.16832, 0.16632, 0.17724, 0.21218, 0.47098}, {0.16992, 0.17070, 0.17325, 0.17831, 0.18871, 0.23557, 0.21690, 0.21451, 0.22514, 0.26082, 0.52034}, {0.21640, 0.21722, 0.21987, 0.22500, 0.23540, 0.28097, 0.26399, 0.26154, 0.27214, 0.30784, 0.56734}, {0.26318, 0.26400, 0.26679, 0.27181, 0.28220, 0.32739, 0.31090, 0.30842, 0.31902, 0.35474, 0.61415}, {0.31001, 0.31085, 0.31348, 0.31866, 0.32903, 0.37412, 0.35777, 0.35546, 0.36588, 0.40159, 0.66103}, {0.35687, 0.35769, 0.36033, 0.36556, 0.37588, 0.42094, 0.40523, 0.40214, 0.41273, 0.44841, 0.70785}, {0.40372, 0.40457, 0.40723, 0.41234, 0.42273, 0.46778, 0.45148, 0.44903, 0.45961, 0.49526, 0.75486}, {0.45062, 0.45139, 0.45404, 0.45966, 0.46958, 0.51470, 0.49833, 0.49584, 0.50644, 0.54211, 0.80160}, {0.49742, 0.49825, 0.50088, 0.50605, 0.51644, 0.56148, 0.54518, 0.54270, 0.55330, 0.58897, 0.84854}, {0.54427, 0.54510, 0.54774, 0.55290, 0.56329, 0.60846, 0.59203, 0.58955, 0.60014, 0.63578, 0.89528}, {0.59119, 0.59199, 0.59471, 0.59975, 0.61014, 0.65533, 0.63889, 0.63636, 0.64699, 0.68269, 0.94197}, {0.63866, 0.63880, 0.64145, 0.64664, 0.65701, 0.70639, 0.68574, 0.68325, 0.69385, 0.72949, 0.98900}, {0.68483, 0.68566, 0.68831, 0.69347, 0.70386, 0.74890, 0.73260, 0.73010, 0.74069, 0.77638, 1.03320}, {0.73168, 0.73255, 0.73515, 0.74031, 0.75072, 0.79576, 0.77117, 0.77501, 0.78755, 0.82318, 1.08006}, {0.77854, 0.78310, 0.78200, 0.79525, 0.79756, 0.84281, 0.81803, 0.82393, 0.83441, 0.87008, 1.12692}, {0.82541, 0.82642, 0.82916, 0.83528, 0.84442, 0.89086, 0.87315, 0.87079, 0.88125, 0.91694, 1.17648}, {0.87226, 0.87308, 0.87602, 0.88086, 0.89128, 0.93772, 0.92001, 0.91751, 0.92811, 0.95587, 1.22328}, {0.91921, 0.91994, 0.92256, 0.92772, 0.94713, 0.98566, 0.96690, 0.96436, 0.97495, 1.01064, 1.26882}, {0.96790, 0.96679, 0.96941, 0.97463, 0.99399, 1.03001, 1.01376, 1.01112, 1.02181, 1.05749, 1.31568}, {1.01278, 1.01390, 1.01674, 1.02147, 1.03182, 1.07820, 1.06056, 1.05798, 1.06867, 1.10433, 1.36390}, {1.05964, 1.06076, 1.06331, 1.06833, 1.07870, 1.13297, 1.10742, 1.10520, 1.11543, 1.15120, 1.41069}, {1.10664, 1.10762, 1.10997, 1.11519, 1.12556, 1.17531, 1.15427, 1.14620, 1.16229, 1.19805, 1.45758}, {1.15352, 1.15421, 1.15683, 1.16218, 1.17242, 1.21910, 1.20035, 1.19863, 1.20579, 1.24473, 1.50412}, {1.20019, 1.20115, 1.20369, 1.20892, 1.21928, 1.26913, 1.24721, 1.24549, 1.25605, 1.29159, 1.54920}, {1.24707, 1.24846, 1.25052, 1.25602, 1.26608, 1.31558, 1.29448, 1.29232, 1.30293, 1.33675, 1.59798}, {1.29391, 1.29475, 1.29738, 1.30255, 1.31294, 1.36244, 1.34167, 1.33918, 1.34979, 1.38229, 1.64496}, {1.34078, 1.34304, 1.34424, 1.35565, 1.35980, 1.40930, 1.38853, 1.38229, 1.39664, 1.42863, 1.69162}, {1.38762, 1.38847, 1.39110, 1.39627, 1.40666, 1.45183, 1.43539, 1.43289, 1.44348, 1.47549, 1.73876}, {1.43524, 1.43533, 1.43796, 1.44310, 1.45371, 1.49305, 1.48224, 1.47941, 1.49034, 1.52601, 1.78552}, {1.48122, 1.48219, 1.48482, 1.48991, 1.50030, 1.53991, 1.52898, 1.52653, 1.53653, 1.57282, 1.82386}}; if (fTimeStruct1) delete [] fTimeStruct1; fTimeStruct1 = new Float_t[ktimebin*kZbin]; if (fTimeStruct2) delete [] fTimeStruct2; fTimeStruct2 = new Float_t[ktimebin*kZbin]; for (Int_t ctrt = 0; ctrt fVDsmp[6] ) { fTimeStruct1[ctrt+ctrz*ktimebin] = time2100[ctrt][ctrz]; fTimeStruct2[ctrt+ctrz*ktimebin] = time2200[ctrt][ctrz]; fVDlo = fVDsmp[6]; fVDhi = fVDsmp[7]; } else if ( fDriftVelocity > fVDsmp[5] ) { fTimeStruct1[ctrt+ctrz*ktimebin] = time2000[ctrt][ctrz]; fTimeStruct2[ctrt+ctrz*ktimebin] = time2100[ctrt][ctrz]; fVDlo = fVDsmp[5]; fVDhi = fVDsmp[6]; } else if ( fDriftVelocity > fVDsmp[4] ) { fTimeStruct1[ctrt+ctrz*ktimebin] = time1900[ctrt][ctrz]; fTimeStruct2[ctrt+ctrz*ktimebin] = time2000[ctrt][ctrz]; fVDlo = fVDsmp[4]; fVDhi = fVDsmp[5]; } else if ( fDriftVelocity > fVDsmp[3] ) { fTimeStruct1[ctrt+ctrz*ktimebin] = time1800[ctrt][ctrz]; fTimeStruct2[ctrt+ctrz*ktimebin] = time1900[ctrt][ctrz]; fVDlo = fVDsmp[3]; fVDhi = fVDsmp[4]; } else if ( fDriftVelocity > fVDsmp[2] ) { fTimeStruct1[ctrt+ctrz*ktimebin] = time1700[ctrt][ctrz]; fTimeStruct2[ctrt+ctrz*ktimebin] = time1800[ctrt][ctrz]; fVDlo = fVDsmp[2]; fVDhi = fVDsmp[3]; } else if ( fDriftVelocity > fVDsmp[1] ) { fTimeStruct1[ctrt+ctrz*ktimebin] = time1600[ctrt][ctrz]; fTimeStruct2[ctrt+ctrz*ktimebin] = time1700[ctrt][ctrz]; fVDlo = fVDsmp[1]; fVDhi = fVDsmp[2]; } else if ( fDriftVelocity > (fVDsmp[0] - 1.e-5) ) { fTimeStruct1[ctrt+ctrz*ktimebin] = time1500[ctrt][ctrz]; fTimeStruct2[ctrt+ctrz*ktimebin] = time1600[ctrt][ctrz]; fVDlo = fVDsmp[0]; fVDhi = fVDsmp[1]; } } } //printf("fVDlo = %f, fVDhi = %f\n", fVDlo, fVDhi); ReInit(); } //_____________________________________________________________________________ void AliTRDparameter::SamplePRF() { // // Samples the pad response function // const Int_t kNplan = AliTRDgeometry::kNplan; const Int_t kPRFbin = 61; Float_t prf[kNplan][kPRFbin] = { {2.9037e-02, 3.3608e-02, 3.9020e-02, 4.5292e-02, 5.2694e-02, 6.1362e-02, 7.1461e-02, 8.3362e-02, 9.7063e-02, 1.1307e-01, 1.3140e-01, 1.5235e-01, 1.7623e-01, 2.0290e-01, 2.3294e-01, 2.6586e-01, 3.0177e-01, 3.4028e-01, 3.8077e-01, 4.2267e-01, 4.6493e-01, 5.0657e-01, 5.4655e-01, 5.8397e-01, 6.1767e-01, 6.4744e-01, 6.7212e-01, 6.9188e-01, 7.0627e-01, 7.1499e-01, 7.1851e-01, 7.1499e-01, 7.0627e-01, 6.9188e-01, 6.7212e-01, 6.4744e-01, 6.1767e-01, 5.8397e-01, 5.4655e-01, 5.0657e-01, 4.6493e-01, 4.2267e-01, 3.8077e-01, 3.4028e-01, 3.0177e-01, 2.6586e-01, 2.3294e-01, 2.0290e-01, 1.7623e-01, 1.5235e-01, 1.3140e-01, 1.1307e-01, 9.7063e-02, 8.3362e-02, 7.1461e-02, 6.1362e-02, 5.2694e-02, 4.5292e-02, 3.9020e-02, 3.3608e-02, 2.9037e-02}, {2.5478e-02, 2.9695e-02, 3.4655e-02, 4.0454e-02, 4.7342e-02, 5.5487e-02, 6.5038e-02, 7.6378e-02, 8.9696e-02, 1.0516e-01, 1.2327e-01, 1.4415e-01, 1.6794e-01, 1.9516e-01, 2.2573e-01, 2.5959e-01, 2.9694e-01, 3.3719e-01, 3.7978e-01, 4.2407e-01, 4.6889e-01, 5.1322e-01, 5.5569e-01, 5.9535e-01, 6.3141e-01, 6.6259e-01, 6.8882e-01, 7.0983e-01, 7.2471e-01, 7.3398e-01, 7.3761e-01, 7.3398e-01, 7.2471e-01, 7.0983e-01, 6.8882e-01, 6.6259e-01, 6.3141e-01, 5.9535e-01, 5.5569e-01, 5.1322e-01, 4.6889e-01, 4.2407e-01, 3.7978e-01, 3.3719e-01, 2.9694e-01, 2.5959e-01, 2.2573e-01, 1.9516e-01, 1.6794e-01, 1.4415e-01, 1.2327e-01, 1.0516e-01, 8.9696e-02, 7.6378e-02, 6.5038e-02, 5.5487e-02, 4.7342e-02, 4.0454e-02, 3.4655e-02, 2.9695e-02, 2.5478e-02}, {2.2363e-02, 2.6233e-02, 3.0782e-02, 3.6140e-02, 4.2535e-02, 5.0157e-02, 5.9197e-02, 6.9900e-02, 8.2707e-02, 9.7811e-02, 1.1548e-01, 1.3601e-01, 1.5998e-01, 1.8739e-01, 2.1840e-01, 2.5318e-01, 2.9182e-01, 3.3373e-01, 3.7837e-01, 4.2498e-01, 4.7235e-01, 5.1918e-01, 5.6426e-01, 6.0621e-01, 6.4399e-01, 6.7700e-01, 7.0472e-01, 7.2637e-01, 7.4206e-01, 7.5179e-01, 7.5551e-01, 7.5179e-01, 7.4206e-01, 7.2637e-01, 7.0472e-01, 6.7700e-01, 6.4399e-01, 6.0621e-01, 5.6426e-01, 5.1918e-01, 4.7235e-01, 4.2498e-01, 3.7837e-01, 3.3373e-01, 2.9182e-01, 2.5318e-01, 2.1840e-01, 1.8739e-01, 1.5998e-01, 1.3601e-01, 1.1548e-01, 9.7811e-02, 8.2707e-02, 6.9900e-02, 5.9197e-02, 5.0157e-02, 4.2535e-02, 3.6140e-02, 3.0782e-02, 2.6233e-02, 2.2363e-02}, {1.9635e-02, 2.3167e-02, 2.7343e-02, 3.2293e-02, 3.8224e-02, 4.5335e-02, 5.3849e-02, 6.4039e-02, 7.6210e-02, 9.0739e-02, 1.0805e-01, 1.2841e-01, 1.5216e-01, 1.7960e-01, 2.1099e-01, 2.4671e-01, 2.8647e-01, 3.2996e-01, 3.7660e-01, 4.2547e-01, 4.7536e-01, 5.2473e-01, 5.7215e-01, 6.1632e-01, 6.5616e-01, 6.9075e-01, 7.1939e-01, 7.4199e-01, 7.5838e-01, 7.6848e-01, 7.7227e-01, 7.6848e-01, 7.5838e-01, 7.4199e-01, 7.1939e-01, 6.9075e-01, 6.5616e-01, 6.1632e-01, 5.7215e-01, 5.2473e-01, 4.7536e-01, 4.2547e-01, 3.7660e-01, 3.2996e-01, 2.8647e-01, 2.4671e-01, 2.1099e-01, 1.7960e-01, 1.5216e-01, 1.2841e-01, 1.0805e-01, 9.0739e-02, 7.6210e-02, 6.4039e-02, 5.3849e-02, 4.5335e-02, 3.8224e-02, 3.2293e-02, 2.7343e-02, 2.3167e-02, 1.9635e-02}, {1.7224e-02, 2.0450e-02, 2.4286e-02, 2.8860e-02, 3.4357e-02, 4.0979e-02, 4.8966e-02, 5.8612e-02, 7.0253e-02, 8.4257e-02, 1.0102e-01, 1.2094e-01, 1.4442e-01, 1.7196e-01, 2.0381e-01, 2.4013e-01, 2.8093e-01, 3.2594e-01, 3.7450e-01, 4.2563e-01, 4.7796e-01, 5.2991e-01, 5.7974e-01, 6.2599e-01, 6.6750e-01, 7.0344e-01, 7.3329e-01, 7.5676e-01, 7.7371e-01, 7.8410e-01, 7.8793e-01, 7.8410e-01, 7.7371e-01, 7.5676e-01, 7.3329e-01, 7.0344e-01, 6.6750e-01, 6.2599e-01, 5.7974e-01, 5.2991e-01, 4.7796e-01, 4.2563e-01, 3.7450e-01, 3.2594e-01, 2.8093e-01, 2.4013e-01, 2.0381e-01, 1.7196e-01, 1.4442e-01, 1.2094e-01, 1.0102e-01, 8.4257e-02, 7.0253e-02, 5.8612e-02, 4.8966e-02, 4.0979e-02, 3.4357e-02, 2.8860e-02, 2.4286e-02, 2.0450e-02, 1.7224e-02}, {1.5096e-02, 1.8041e-02, 2.1566e-02, 2.5793e-02, 3.0886e-02, 3.7044e-02, 4.4515e-02, 5.3604e-02, 6.4668e-02, 7.8109e-02, 9.4364e-02, 1.1389e-01, 1.3716e-01, 1.6461e-01, 1.9663e-01, 2.3350e-01, 2.7527e-01, 3.2170e-01, 3.7214e-01, 4.2549e-01, 4.8024e-01, 5.3460e-01, 5.8677e-01, 6.3512e-01, 6.7838e-01, 7.1569e-01, 7.4655e-01, 7.7071e-01, 7.8810e-01, 7.9871e-01, 8.0255e-01, 7.9871e-01, 7.8810e-01, 7.7071e-01, 7.4655e-01, 7.1569e-01, 6.7838e-01, 6.3512e-01, 5.8677e-01, 5.3460e-01, 4.8024e-01, 4.2549e-01, 3.7214e-01, 3.2170e-01, 2.7527e-01, 2.3350e-01, 1.9663e-01, 1.6461e-01, 1.3716e-01, 1.1389e-01, 9.4364e-02, 7.8109e-02, 6.4668e-02, 5.3604e-02, 4.4515e-02, 3.7044e-02, 3.0886e-02, 2.5793e-02, 2.1566e-02, 1.8041e-02, 1.5096e-02}}; // More sampling precision with linear interpolation fPRFlo = -1.5; fPRFhi = 1.5; Float_t pad[kPRFbin]; Int_t sPRFbin = kPRFbin; Float_t sPRFwid = (fPRFhi - fPRFlo) / ((Float_t) sPRFbin); for (Int_t iPad = 0; iPad < sPRFbin; iPad++) { pad[iPad] = ((Float_t) iPad + 0.5) * sPRFwid + fPRFlo; } fPRFbin = 500; fPRFwid = (fPRFhi - fPRFlo) / ((Float_t) fPRFbin); fPRFpad = ((Int_t) (1.0 / fPRFwid)); if (fPRFsmp) delete [] fPRFsmp; fPRFsmp = new Float_t[kNplan*fPRFbin]; Int_t ipos1; Int_t ipos2; Float_t diff; for (Int_t iPla = 0; iPla < kNplan; iPla++) { for (Int_t iBin = 0; iBin < fPRFbin; iBin++) { Float_t bin = (((Float_t) iBin) + 0.5) * fPRFwid + fPRFlo; ipos1 = ipos2 = 0; diff = 0; do { diff = bin - pad[ipos2++]; } while ((diff > 0) && (ipos2 < kPRFbin)); if (ipos2 == kPRFbin) { fPRFsmp[iPla*fPRFbin+iBin] = prf[iPla][ipos2-1]; } else if (ipos2 == 1) { fPRFsmp[iPla*fPRFbin+iBin] = prf[iPla][ipos2-1]; } else { ipos2--; if (ipos2 >= kPRFbin) ipos2 = kPRFbin - 1; ipos1 = ipos2 - 1; fPRFsmp[iPla*fPRFbin+iBin] = prf[iPla][ipos2] + diff * (prf[iPla][ipos2] - prf[iPla][ipos1]) / sPRFwid; } } } } //_____________________________________________________________________________ void AliTRDparameter::FillLUT() { // // Create the LUT // const Int_t kNplan = AliTRDgeometry::kNplan; const Int_t kNlut = 128; fLUTbin = kNplan * kNlut; // The lookup table from Bogdan Float_t lut[kNplan][kNlut] = { { 0.0070, 0.0150, 0.0224, 0.0298, 0.0374, 0.0454, 0.0533, 0.0611, 0.0684, 0.0755, 0.0827, 0.0900, 0.0975, 0.1049, 0.1120, 0.1187, 0.1253, 0.1318, 0.1385, 0.1453, 0.1519, 0.1584, 0.1646, 0.1704, 0.1762, 0.1821, 0.1879, 0.1938, 0.1996, 0.2053, 0.2108, 0.2160, 0.2210, 0.2260, 0.2310, 0.2361, 0.2411, 0.2461, 0.2509, 0.2557, 0.2602, 0.2646, 0.2689, 0.2732, 0.2774, 0.2816, 0.2859, 0.2901, 0.2942, 0.2983, 0.3022, 0.3061, 0.3099, 0.3136, 0.3172, 0.3207, 0.3242, 0.3278, 0.3312, 0.3347, 0.3382, 0.3416, 0.3450, 0.3483, 0.3515, 0.3547, 0.3579, 0.3609, 0.3639, 0.3669, 0.3698, 0.3727, 0.3756, 0.3785, 0.3813, 0.3842, 0.3870, 0.3898, 0.3926, 0.3952, 0.3979, 0.4005, 0.4032, 0.4057, 0.4082, 0.4108, 0.4132, 0.4157, 0.4181, 0.4205, 0.4228, 0.4252, 0.4275, 0.4299, 0.4322, 0.4345, 0.4367, 0.4390, 0.4412, 0.4434, 0.4456, 0.4478, 0.4499, 0.4520, 0.4541, 0.4562, 0.4583, 0.4603, 0.4623, 0.4643, 0.4663, 0.4683, 0.4702, 0.4722, 0.4741, 0.4758, 0.4774, 0.4790, 0.4805, 0.4824, 0.4844, 0.4863, 0.4883, 0.4902, 0.4921, 0.4940, 0.4959, 0.4978 }, { 0.0072, 0.0156, 0.0235, 0.0313, 0.0394, 0.0478, 0.0561, 0.0642, 0.0718, 0.0792, 0.0868, 0.0947, 0.1025, 0.1101, 0.1172, 0.1241, 0.1309, 0.1378, 0.1449, 0.1518, 0.1586, 0.1650, 0.1710, 0.1770, 0.1830, 0.1891, 0.1952, 0.2011, 0.2070, 0.2125, 0.2177, 0.2229, 0.2280, 0.2332, 0.2383, 0.2435, 0.2484, 0.2533, 0.2581, 0.2627, 0.2670, 0.2714, 0.2757, 0.2799, 0.2842, 0.2884, 0.2927, 0.2968, 0.3008, 0.3048, 0.3086, 0.3123, 0.3159, 0.3195, 0.3231, 0.3266, 0.3301, 0.3335, 0.3370, 0.3404, 0.3438, 0.3471, 0.3504, 0.3536, 0.3567, 0.3598, 0.3628, 0.3657, 0.3686, 0.3715, 0.3744, 0.3772, 0.3800, 0.3828, 0.3856, 0.3884, 0.3911, 0.3938, 0.3965, 0.3991, 0.4016, 0.4042, 0.4067, 0.4092, 0.4116, 0.4140, 0.4164, 0.4187, 0.4211, 0.4234, 0.4257, 0.4280, 0.4302, 0.4325, 0.4347, 0.4369, 0.4391, 0.4413, 0.4434, 0.4456, 0.4477, 0.4497, 0.4518, 0.4538, 0.4558, 0.4578, 0.4598, 0.4618, 0.4637, 0.4656, 0.4675, 0.4694, 0.4713, 0.4732, 0.4750, 0.4766, 0.4781, 0.4797, 0.4813, 0.4832, 0.4851, 0.4870, 0.4888, 0.4906, 0.4925, 0.4942, 0.4960, 0.4978 }, { 0.0075, 0.0163, 0.0246, 0.0328, 0.0415, 0.0504, 0.0592, 0.0674, 0.0753, 0.0832, 0.0914, 0.0996, 0.1077, 0.1154, 0.1225, 0.1296, 0.1369, 0.1442, 0.1515, 0.1585, 0.1652, 0.1714, 0.1776, 0.1839, 0.1902, 0.1965, 0.2025, 0.2085, 0.2141, 0.2194, 0.2247, 0.2299, 0.2352, 0.2405, 0.2457, 0.2507, 0.2557, 0.2604, 0.2649, 0.2693, 0.2737, 0.2780, 0.2823, 0.2867, 0.2909, 0.2951, 0.2992, 0.3033, 0.3072, 0.3110, 0.3146, 0.3182, 0.3218, 0.3253, 0.3288, 0.3323, 0.3357, 0.3392, 0.3426, 0.3459, 0.3492, 0.3524, 0.3555, 0.3586, 0.3616, 0.3645, 0.3674, 0.3703, 0.3731, 0.3759, 0.3787, 0.3815, 0.3843, 0.3870, 0.3897, 0.3925, 0.3950, 0.3976, 0.4002, 0.4027, 0.4052, 0.4076, 0.4101, 0.4124, 0.4148, 0.4171, 0.4194, 0.4217, 0.4239, 0.4262, 0.4284, 0.4306, 0.4328, 0.4350, 0.4371, 0.4393, 0.4414, 0.4435, 0.4455, 0.4476, 0.4496, 0.4516, 0.4536, 0.4555, 0.4575, 0.4594, 0.4613, 0.4632, 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0.4531, 0.4550, 0.4568, 0.4586, 0.4604, 0.4622, 0.4639, 0.4657, 0.4674, 0.4691, 0.4708, 0.4725, 0.4742, 0.4758, 0.4773, 0.4788, 0.4803, 0.4819, 0.4836, 0.4852, 0.4869, 0.4885, 0.4901, 0.4917, 0.4933, 0.4948, 0.4964, 0.4979 }, { 0.0085, 0.0189, 0.0288, 0.0389, 0.0497, 0.0603, 0.0699, 0.0792, 0.0887, 0.0985, 0.1082, 0.1170, 0.1253, 0.1336, 0.1421, 0.1505, 0.1587, 0.1662, 0.1733, 0.1803, 0.1874, 0.1945, 0.2014, 0.2081, 0.2143, 0.2201, 0.2259, 0.2316, 0.2374, 0.2431, 0.2487, 0.2541, 0.2593, 0.2642, 0.2689, 0.2735, 0.2781, 0.2826, 0.2872, 0.2917, 0.2961, 0.3003, 0.3045, 0.3086, 0.3125, 0.3162, 0.3198, 0.3235, 0.3270, 0.3306, 0.3342, 0.3377, 0.3411, 0.3446, 0.3479, 0.3511, 0.3543, 0.3575, 0.3605, 0.3634, 0.3663, 0.3691, 0.3720, 0.3748, 0.3775, 0.3803, 0.3830, 0.3857, 0.3884, 0.3911, 0.3937, 0.3962, 0.3987, 0.4012, 0.4036, 0.4060, 0.4084, 0.4107, 0.4129, 0.4152, 0.4174, 0.4196, 0.4218, 0.4239, 0.4261, 0.4282, 0.4303, 0.4324, 0.4344, 0.4365, 0.4385, 0.4405, 0.4425, 0.4445, 0.4464, 0.4483, 0.4502, 0.4521, 0.4539, 0.4558, 0.4576, 0.4593, 0.4611, 0.4629, 0.4646, 0.4663, 0.4680, 0.4697, 0.4714, 0.4730, 0.4747, 0.4759, 0.4769, 0.4780, 0.4790, 0.4800, 0.4811, 0.4827, 0.4843, 0.4859, 0.4874, 0.4889, 0.4905, 0.4920, 0.4935, 0.4950, 0.4965, 0.4979 } }; if (fLUT) delete [] fLUT; fLUT = new Float_t[fLUTbin]; for (Int_t iplan = 0; iplan < kNplan; iplan++) { for (Int_t ilut = 0; ilut < kNlut; ilut++) { fLUT[iplan*kNlut+ilut] = lut[iplan][ilut]; } } } //_____________________________________________________________________________ Float_t AliTRDparameter::GetDiffusionL(Float_t vd, Float_t b) { // // Returns the longitudinal diffusion coefficient for a given drift // velocity and a B-field for Xe/CO2 (15%). // The values are according to a GARFIELD simulation. // const Int_t kNb = 5; Float_t p0[kNb] = { 0.007440, 0.007493, 0.007513, 0.007672, 0.007831 }; Float_t p1[kNb] = { 0.019252, 0.018912, 0.018636, 0.018012, 0.017343 }; Float_t p2[kNb] = { -0.005042, -0.004926, -0.004867, -0.004650, -0.004424 }; Float_t p3[kNb] = { 0.000195, 0.000189, 0.000195, 0.000182, 0.000169 }; Int_t ib = ((Int_t) (10 * (b - 0.15))); ib = TMath::Max( 0,ib); ib = TMath::Min(kNb,ib); Float_t diff = p0[ib] + p1[ib] * vd + p2[ib] * vd*vd + p3[ib] * vd*vd*vd; return diff; } //_____________________________________________________________________________ Float_t AliTRDparameter::GetDiffusionT(Float_t vd, Float_t b) { // // Returns the transverse diffusion coefficient for a given drift // velocity and a B-field for Xe/CO2 (15%). // The values are according to a GARFIELD simulation. // const Int_t kNb = 5; Float_t p0[kNb] = { 0.009550, 0.009599, 0.009674, 0.009757, 0.009850 }; Float_t p1[kNb] = { 0.006667, 0.006539, 0.006359, 0.006153, 0.005925 }; Float_t p2[kNb] = { -0.000853, -0.000798, -0.000721, -0.000635, -0.000541 }; Float_t p3[kNb] = { 0.000131, 0.000122, 0.000111, 0.000098, 0.000085 }; Int_t ib = ((Int_t) (10 * (b - 0.15))); ib = TMath::Max( 0,ib); ib = TMath::Min(kNb,ib); Float_t diff = p0[ib] + p1[ib] * vd + p2[ib] * vd*vd + p3[ib] * vd*vd*vd; return diff; } //_____________________________________________________________________________ Float_t AliTRDparameter::GetOmegaTau(Float_t vd, Float_t b) { // // Returns omega*tau (tan(Lorentz-angle)) for a given drift velocity // and a B-field for Xe/CO2 (15%). // The values are according to a GARFIELD simulation. // const Int_t kNb = 5; Float_t p0[kNb] = { 0.004810, 0.007412, 0.010252, 0.013409, 0.016888 }; Float_t p1[kNb] = { 0.054875, 0.081534, 0.107333, 0.131983, 0.155455 }; Float_t p2[kNb] = { -0.008682, -0.012896, -0.016987, -0.020880, -0.024623 }; Float_t p3[kNb] = { 0.000155, 0.000238, 0.000330, 0.000428, 0.000541 }; Int_t ib = ((Int_t) (10 * (b - 0.15))); ib = TMath::Max( 0,ib); ib = TMath::Min(kNb,ib); Float_t alphaL = p0[ib] + p1[ib] * vd + p2[ib] * vd*vd + p3[ib] * vd*vd*vd; return TMath::Tan(alphaL); } //_____________________________________________________________________________ Double_t AliTRDparameter::LUTposition(Int_t iplane, Double_t ampL , Double_t ampC , Double_t ampR) const { // // Calculates the cluster position using the lookup table. // Method provided by Bogdan Vulpescu. // const Int_t kNplan = AliTRDgeometry::kNplan; const Int_t kNlut = 128; Double_t pos; Double_t x = 0.0; Double_t xmin; Double_t xmax; Double_t xwid; Int_t side = 0; Int_t ix; Double_t xMin[kNplan] = { 0.006492, 0.006377, 0.006258, 0.006144, 0.006030, 0.005980 }; Double_t xMax[kNplan] = { 0.960351, 0.965870, 0.970445, 0.974352, 0.977667, 0.996101 }; if (ampL > ampR) { x = (ampL - ampR) / ampC; side = -1; } else if (ampL < ampR) { x = (ampR - ampL) / ampC; side = +1; } if (ampL != ampR) { xmin = xMin[iplane] + 0.000005; xmax = xMax[iplane] - 0.000005; xwid = (xmax - xmin) / 127.0; if (x < xmin) { pos = 0.0000; } else if (x > xmax) { pos = side * 0.5000; } else { ix = (Int_t) ((x - xmin) / xwid); pos = side * fLUT[iplane*kNlut+ix]; } } else { pos = 0.0; } return pos; }