Float_t dpt = 0.1; // GeV
//
// For b = 0
-// (factor 1.35 to scale from 10% most central to b=0)
+// (factor 1.28 to scale from 10% most central to b=0)
//
- Float_t scaleC0 = 1.35 * ptUp / dpt;
- Float_t scaleB0 = 1.35 * ptUp / dpt;
- Float_t scaleD0 = 1.35 * etar * ptUp / 1.35; // scaled by 1.35 to match ALICE-INT-2002-6
+ Float_t scaleC0 = 1.28 * ptUp / dpt;
+ Float_t scaleB0 = 1.28 * ptUp / dpt;
+ Float_t scaleD0 = 1.28 * etar * ptUp / 1.35; // scaled by 1.35 to match ALICE-INT-2002-6
//
//
Float_t wgtB1, wgtB2;
Float_t wgtC1, wgtC2;
- if (pT1 > 2.0) {
+ if (pT1 > 1.5) {
wgtC1 = ptCCHf->Eval(pT1) * scaleC;
} else {
wgtC1 = ptCCLf->Eval(pT1) * scaleC;
}
- if (pT2 > 2.0) {
+ if (pT2 > 1.5) {
wgtC2 = ptCCHf->Eval(pT2) * scaleC;
} else {
wgtC2 = ptCCLf->Eval(pT2) * scaleC;