/* $Id$ */
-// --------------------------
+//-----------------------------------------------------------------------------
// Class AliMUONResponseV0
// --------------------------
// Implementation of
// Mathieson response
+//-----------------------------------------------------------------------------
#include "AliMUONResponseV0.h"
#include "AliMUON.h"
#include "AliMUONDigit.h"
#include "AliMUONGeometryTransformer.h"
#include "AliMUONHit.h"
+#include "AliMUONConstants.h"
#include "AliMpArea.h"
#include "AliMpDEManager.h"
fZeroSuppression(0),
fChargeCorrel(0.0),
fMathieson(new AliMUONMathieson),
- fChargeThreshold(1e-4)
+ fChargeThreshold(1e-4),
+ fIsTailEffect(kFALSE)
{
/// Normal constructor
AliDebug(1,Form("Default ctor"));
fZeroSuppression(0),
fChargeCorrel(0.0),
fMathieson(0),
-fChargeThreshold(1e-4)
+fChargeThreshold(1e-4),
+fIsTailEffect(kFALSE)
{
/// copy ctor
other.CopyTo(*this);
//______________________________________________________________________________
void
-AliMUONResponseV0::DisIntegrate(const AliMUONHit& hit, TList& digits)
+AliMUONResponseV0::DisIntegrate(const AliMUONHit& hit, TList& digits, Float_t timeDif)
{
/// Go from 1 hit to a list of digits.
/// The energy deposition of that hit is first converted into charge
digits.Clear();
Int_t detElemId = hit.DetElemId();
-
+ Double_t hitX = hit.X() ;
+ Double_t hitY = hit.Y() ;
+ Double_t hitZ = hit.Z() ;
+
// Width of the integration area
Double_t dx = SigmaIntegration()*ChargeSpreadX();
Double_t dy = SigmaIntegration()*ChargeSpreadY();
+ //Modify to take the tailing effect.
+ if(fIsTailEffect){
+ Double_t locX,locY,locZ,globXCenter,globYCenter,globZ;
+ Int_t para = 5; // This parameter is a natural number(excluding zero), higher the value less is the tailing effect
+ Double_t termA = 1.0;
+ Double_t termB = 1.0;
+ if(para>0){
+ for ( Int_t cath = AliMp::kCath0; cath <= AliMp::kCath1; ++cath )
+ {
+ // Get an iterator to loop over pads, within the given area.
+ const AliMpVSegmentation* seg =
+ AliMpSegmentation::Instance()
+ ->GetMpSegmentation(detElemId,AliMp::GetCathodType(cath));
+ AliMp::PlaneType plane = seg->PlaneType();
+
+ if(plane == AliMp::kBendingPlane) {
+ Global2Local(detElemId,hitX,hitY,hitZ,locX,locY,locZ);
+ AliMpPad pad = seg->PadByPosition(locX,locY,kFALSE);
+ if(pad.IsValid()){
+ Double_t locYCenter = pad.GetPositionY();
+ Double_t locXCenter = pad.GetPositionX();
+ const AliMUONGeometryTransformer* transformer = muon()->GetGeometryTransformer();
+ transformer->Local2Global(detElemId,locXCenter,locYCenter,locZ,globXCenter,globYCenter,globZ);
+ for(Int_t itime = 0; itime<para; itime++)
+ termA *= 10.0;
+
+ for(Int_t itime = 0; itime<Int_t((2*para) + 1); itime++)
+ termB *= (hitY - globYCenter) ;
+
+ hitY = hitY + termA*termB;
+ }// if the pad is a valid one
+ }// if bending plane
+ }// cathode loop
+ }// if para > 0 condn
+ }// if tail effect
+
// Use that (dx,dy) to specify the area upon which
// we will iterate to spread charge into.
Double_t x,y,z;
- Global2Local(detElemId,hit.X(),hit.Y(),hit.Z(),x,y,z);
+ Global2Local(detElemId,hitX,hitY,hitZ,x,y,z);
x = GetAnod(x);
- TVector2 hitPosition(x,y);
- AliMpArea area(hitPosition,TVector2(dx,dy));
+ AliMpArea area(x,y,dx,dy);
// Get pulse height from energy loss.
Float_t qtot = IntPH(hit.Eloss());
+ // If from a pileup event we apply a reduction factor to the charge
+ if (timeDif!=0){
+ qtot = AliMUONConstants::ReducedQTot(qtot,timeDif);
+ }
+
+ // Scale the charge to it'll (roughly) be in fC
+ qtot *= AliMUONConstants::DefaultADC2MV()*AliMUONConstants::DefaultA0()*AliMUONConstants::DefaultCapa();
+
// Get the charge correlation between cathodes.
Float_t currentCorrel = TMath::Exp(gRandom->Gaus(0.0,ChargeCorrel()/2.0));
if ( it->IsDone() )
{
// Exceptional case : iterator is built, but is invalid from the start.
- AliMpPad pad = seg->PadByPosition(area.Position(),kFALSE);
+ AliMpPad pad = seg->PadByPosition(area.GetPositionX(),area.GetPositionY(),
+ kFALSE);
if ( pad.IsValid() )
{
- AliWarning(Form("Got an invalid iterator bug (area.Position() is within "
+ AliDebug(1, Form("Got an invalid iterator bug (area.Position() is within "
" DE but the iterator is void) for detElemId %d cath %d",
detElemId,cath));
}
else
{
- AliError(Form("Got an invalid iterator bug for detElemId %d cath %d."
+ AliDebug(1, Form("Got an invalid iterator bug for detElemId %d cath %d."
"Might be a bad hit ? area.Position()=(%e,%e) "
"Dimensions()=(%e,%e)",
- detElemId,cath,area.Position().X(),area.Position().Y(),
- area.Dimensions().X(),area.Dimensions().Y()));
+ detElemId,cath,area.GetPositionX(),area.GetPositionY(),
+ area.GetDimensionX(),area.GetDimensionY()));
}
delete it;
return;
// For each pad given by the iterator, compute the charge of that
// pad, according to the Mathieson distribution.
AliMpPad pad = it->CurrentItem();
- TVector2 lowerLeft(hitPosition-pad.Position()-pad.Dimensions());
- TVector2 upperRight(lowerLeft + pad.Dimensions()*2.0);
+ TVector2 lowerLeft(TVector2(x,y)-TVector2(pad.GetPositionX(),pad.GetPositionY())-
+ TVector2(pad.GetDimensionX(),pad.GetDimensionY()));
+ TVector2 upperRight(lowerLeft + TVector2(pad.GetDimensionX(),pad.GetDimensionY())*2.0);
Float_t qp = TMath::Abs(fMathieson->IntXY(lowerLeft.X(),lowerLeft.Y(),
upperRight.X(),upperRight.Y()));
- Int_t icharge = Int_t(qp*qcath);
-
- if ( qp > fChargeThreshold )
+ if ( qp > fChargeThreshold &&
+ qp*qcath > AliMUONConstants::DefaultADC2MV()*AliMUONConstants::DefaultA0()*AliMUONConstants::DefaultCapa() )
{
// If we're above threshold, then we create a digit,
// and fill it with relevant information, including electronics.
- AliMUONDigit* d = new AliMUONDigit(detElemId,pad.GetLocation().GetFirst(),
- pad.GetLocation().GetSecond(),cath);
- d->SetPadXY(pad.GetIndices().GetFirst(),pad.GetIndices().GetSecond());
- d->SetCharge(icharge);
+
+ // note that the second condition above is to be backward compatible (when
+ // the sdigitizer was making a cut on Int_t(qp*qcath) > 0 and qcath was in ADC, not in fC)
+
+ AliMUONDigit* d = new AliMUONDigit(detElemId,pad.GetManuId(),
+ pad.GetManuChannel(),cath);
+ d->SetPadXY(pad.GetIx(),pad.GetIy());
+ d->SetCharge(qp*qcath);
digits.Add(d);
}
it->Next();