From a58506fa2f967bc205fecf3b1361e0dd96af5d91 Mon Sep 17 00:00:00 2001
From: Joey Staa <jma@staa.nl>
Date: Sun, 21 Sep 2025 18:09:47 +0200
Subject: [PATCH 1/2] Applied a correction factor to the spectra of charged
 tracks

---
 .../Tasks/threeParticleCorrelations.cxx       | 88 +++++++++++++------
 1 file changed, 61 insertions(+), 27 deletions(-)

diff --git a/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx b/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx
index b4cdb1f8531..30b93813c7f 100644
--- a/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx
+++ b/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx
@@ -133,6 +133,7 @@ struct ThreeParticleCorrelations {
 
   // Process configurables
   Configurable<int> confBfieldSwitch{"confBfieldSwitch", 0, "Switch for the detector magnetic field (1 if Pos, -1 if Neg, 0 if both)"};
+  Configurable<bool> confRatioCorrectionSwitch{"confRatioCorrectionSwitch", false, "Switch for correcting the negative spectra back to the positive spectra"};
   Configurable<bool> confFakeV0Switch{"confFakeV0Switch", false, "Switch for the fakeV0Filter function"};
   Configurable<bool> confRDSwitch{"confRDSwitch", true, "Switch for the radialDistanceFilter function"};
 
@@ -142,6 +143,11 @@ struct ThreeParticleCorrelations {
   TH3D** hEffProtons = new TH3D*[2];
   TH3D** hEffLambdas = new TH3D*[2];
 
+  // Spectra correction histograms
+  TH2D** hCorrectionPions = new TH2D*[2];
+  TH2D** hCorrectionKaons = new TH2D*[2];
+  TH2D** hCorrectionProtons = new TH2D*[2];
+
   // Correlation variables
   int triggSign, assocSign;
   double v0Efficiency;
@@ -323,6 +329,14 @@ struct ThreeParticleCorrelations {
     hEffProtons[1] = static_cast<TH3D*>(effListChargedParticles->FindObject("hEfficiencyProtonN"));
     hEffLambdas[0] = static_cast<TH3D*>(effListLambdas->FindObject("hEfficiencyLambdaP"));
     hEffLambdas[1] = static_cast<TH3D*>(effListLambdas->FindObject("hEfficiencyLambdaN"));
+
+    TList* correctionListChargedParticles = ccdb->getForTimeStamp<TList>("Users/j/jstaa/SpectraRatios/ChargedParticles", 1);
+    hCorrectionPions[0] = static_cast<TH2D*>(correctionListChargedParticles->FindObject("h2DRatioPionP"));
+    hCorrectionPions[1] = static_cast<TH2D*>(correctionListChargedParticles->FindObject("h2DRatioPionN"));
+    hCorrectionKaons[0] = static_cast<TH2D*>(correctionListChargedParticles->FindObject("h2DRatioKaonP"));
+    hCorrectionKaons[1] = static_cast<TH2D*>(correctionListChargedParticles->FindObject("h2DRatioKaonN"));
+    hCorrectionProtons[0] = static_cast<TH2D*>(correctionListChargedParticles->FindObject("h2DRatioProtonP"));
+    hCorrectionProtons[1] = static_cast<TH2D*>(correctionListChargedParticles->FindObject("h2DRatioProtonN"));
   }
 
   //==========================================================================================================================================================================================================================================================================
@@ -367,17 +381,17 @@ struct ThreeParticleCorrelations {
         rQARegistry.fill(HIST("hBeta"), track.sign() * track.pt(), track.beta());
         if (assocPID[0] == pionID) { // Pions
           rQARegistry.fill(HIST("hPtPion_Uncorrected"), track.pt(), collision.centFT0C(), track.sign());
-          rQARegistry.fill(HIST("hPtPion_Corrected"), track.pt(), collision.centFT0C(), track.sign(), 1. / trackEff(hEffPions, track, collision.centFT0C()));
+          rQARegistry.fill(HIST("hPtPion_Corrected"), track.pt(), collision.centFT0C(), track.sign(), ratioCorrection(hCorrectionPions, track, collision.centFT0C()) / trackEff(hEffPions, track, collision.centFT0C()));
           rQARegistry.fill(HIST("hdEdxPion"), track.sign() * track.pt(), track.tpcSignal());
           rQARegistry.fill(HIST("hBetaPion"), track.sign() * track.pt(), track.beta());
         } else if (assocPID[0] == kaonID) { // Kaons
           rQARegistry.fill(HIST("hPtKaon_Uncorrected"), track.pt(), collision.centFT0C(), track.sign());
-          rQARegistry.fill(HIST("hPtKaon_Corrected"), track.pt(), collision.centFT0C(), track.sign(), 1. / trackEff(hEffKaons, track, collision.centFT0C()));
+          rQARegistry.fill(HIST("hPtKaon_Corrected"), track.pt(), collision.centFT0C(), track.sign(), ratioCorrection(hCorrectionKaons, track, collision.centFT0C()) / trackEff(hEffKaons, track, collision.centFT0C()));
           rQARegistry.fill(HIST("hdEdxKaon"), track.sign() * track.pt(), track.tpcSignal());
           rQARegistry.fill(HIST("hBetaKaon"), track.sign() * track.pt(), track.beta());
         } else if (assocPID[0] == protonID) { // Protons
           rQARegistry.fill(HIST("hPtProton_Uncorrected"), track.pt(), collision.centFT0C(), track.sign());
-          rQARegistry.fill(HIST("hPtProton_Corrected"), track.pt(), collision.centFT0C(), track.sign(), 1. / trackEff(hEffProtons, track, collision.centFT0C()));
+          rQARegistry.fill(HIST("hPtProton_Corrected"), track.pt(), collision.centFT0C(), track.sign(), ratioCorrection(hCorrectionProtons, track, collision.centFT0C()) / trackEff(hEffProtons, track, collision.centFT0C()));
           rQARegistry.fill(HIST("hdEdxProton"), track.sign() * track.pt(), track.tpcSignal());
           rQARegistry.fill(HIST("hBetaProton"), track.sign() * track.pt(), track.beta());
         }
@@ -412,36 +426,36 @@ struct ThreeParticleCorrelations {
 
               if (candMass >= MassLambda0 - 4 * dGaussSigma && candMass <= MassLambda0 + 4 * dGaussSigma) {
                 if (assocPID[0] == pionID) { // Pions
-                  rSECorrRegistry.fill(HIST("hSameLambdaPion_SGNL"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
+                  rSECorrRegistry.fill(HIST("hSameLambdaPion_SGNL"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, collision.centFT0C()) / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
                 } else if (assocPID[0] == kaonID) { // Kaons
-                  rSECorrRegistry.fill(HIST("hSameLambdaKaon_SGNL"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
+                  rSECorrRegistry.fill(HIST("hSameLambdaKaon_SGNL"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, collision.centFT0C()) / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
                 } else if (assocPID[0] == protonID) { // Protons
-                  rSECorrRegistry.fill(HIST("hSameLambdaProton_SGNL"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
+                  rSECorrRegistry.fill(HIST("hSameLambdaProton_SGNL"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, collision.centFT0C()) / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
                 }
 
               } else if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
                 if (assocPID[0] == pionID) { // Pions
-                  rSECorrRegistry.fill(HIST("hSameLambdaPion_SB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
+                  rSECorrRegistry.fill(HIST("hSameLambdaPion_SB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, collision.centFT0C()) / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
                   if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass < MassLambda0 - 4 * dGaussSigma) {
-                    rSECorrRegistry.fill(HIST("hSameLambdaPion_leftSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
+                    rSECorrRegistry.fill(HIST("hSameLambdaPion_leftSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, collision.centFT0C()) / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
                   } else if (candMass > MassLambda0 + 4 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
-                    rSECorrRegistry.fill(HIST("hSameLambdaPion_rightSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
+                    rSECorrRegistry.fill(HIST("hSameLambdaPion_rightSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, collision.centFT0C()) / (trackEff(hEffPions, associate, collision.centFT0C()) * v0Efficiency));
                   }
 
                 } else if (assocPID[0] == kaonID) { // Kaons
-                  rSECorrRegistry.fill(HIST("hSameLambdaKaon_SB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
+                  rSECorrRegistry.fill(HIST("hSameLambdaKaon_SB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, collision.centFT0C()) / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
                   if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass < MassLambda0 - 4 * dGaussSigma) {
-                    rSECorrRegistry.fill(HIST("hSameLambdaKaon_leftSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
+                    rSECorrRegistry.fill(HIST("hSameLambdaKaon_leftSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, collision.centFT0C()) / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
                   } else if (candMass > MassLambda0 + 4 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
-                    rSECorrRegistry.fill(HIST("hSameLambdaKaon_rightSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
+                    rSECorrRegistry.fill(HIST("hSameLambdaKaon_rightSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, collision.centFT0C()) / (trackEff(hEffKaons, associate, collision.centFT0C()) * v0Efficiency));
                   }
 
                 } else if (assocPID[0] == protonID) { // Protons
-                  rSECorrRegistry.fill(HIST("hSameLambdaProton_SB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
+                  rSECorrRegistry.fill(HIST("hSameLambdaProton_SB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, collision.centFT0C()) / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
                   if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass < MassLambda0 - 4 * dGaussSigma) {
-                    rSECorrRegistry.fill(HIST("hSameLambdaProton_leftSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
+                    rSECorrRegistry.fill(HIST("hSameLambdaProton_leftSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, collision.centFT0C()) / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
                   } else if (candMass > MassLambda0 + 4 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
-                    rSECorrRegistry.fill(HIST("hSameLambdaProton_rightSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
+                    rSECorrRegistry.fill(HIST("hSameLambdaProton_rightSB"), deltaPhi, deltaEta, collision.centFT0C(), collision.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, collision.centFT0C()) / (trackEff(hEffProtons, associate, collision.centFT0C()) * v0Efficiency));
                   }
                 }
               }
@@ -489,36 +503,36 @@ struct ThreeParticleCorrelations {
 
             if (candMass >= MassLambda0 - 4 * dGaussSigma && candMass <= MassLambda0 + 4 * dGaussSigma) {
               if (assocPID[0] == pionID) { // Pions
-                rMECorrRegistry.fill(HIST("hMixLambdaPion_SGNL"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
+                rMECorrRegistry.fill(HIST("hMixLambdaPion_SGNL"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, coll_1.centFT0C()) / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
               } else if (assocPID[0] == kaonID) { // Kaons
-                rMECorrRegistry.fill(HIST("hMixLambdaKaon_SGNL"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
+                rMECorrRegistry.fill(HIST("hMixLambdaKaon_SGNL"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, coll_1.centFT0C()) / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
               } else if (assocPID[0] == protonID) { // Protons
-                rMECorrRegistry.fill(HIST("hMixLambdaProton_SGNL"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
+                rMECorrRegistry.fill(HIST("hMixLambdaProton_SGNL"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, coll_1.centFT0C()) / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
               }
 
             } else if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
               if (assocPID[0] == pionID) { // Pions
-                rMECorrRegistry.fill(HIST("hMixLambdaPion_SB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
+                rMECorrRegistry.fill(HIST("hMixLambdaPion_SB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, coll_1.centFT0C()) / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
                 if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass < MassLambda0 - 4 * dGaussSigma) {
-                  rMECorrRegistry.fill(HIST("hMixLambdaPion_leftSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
+                  rMECorrRegistry.fill(HIST("hMixLambdaPion_leftSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, coll_1.centFT0C()) / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
                 } else if (candMass > MassLambda0 + 4 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
-                  rMECorrRegistry.fill(HIST("hMixLambdaPion_rightSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
+                  rMECorrRegistry.fill(HIST("hMixLambdaPion_rightSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionPions, associate, coll_1.centFT0C()) / (trackEff(hEffPions, associate, coll_1.centFT0C()) * v0Efficiency));
                 }
 
               } else if (assocPID[0] == kaonID) { // Kaons
-                rMECorrRegistry.fill(HIST("hMixLambdaKaon_SB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
+                rMECorrRegistry.fill(HIST("hMixLambdaKaon_SB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, coll_1.centFT0C()) / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
                 if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass < MassLambda0 - 4 * dGaussSigma) {
-                  rMECorrRegistry.fill(HIST("hMixLambdaKaon_leftSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
+                  rMECorrRegistry.fill(HIST("hMixLambdaKaon_leftSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, coll_1.centFT0C()) / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
                 } else if (candMass > MassLambda0 + 4 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
-                  rMECorrRegistry.fill(HIST("hMixLambdaKaon_rightSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
+                  rMECorrRegistry.fill(HIST("hMixLambdaKaon_rightSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionKaons, associate, coll_1.centFT0C()) / (trackEff(hEffKaons, associate, coll_1.centFT0C()) * v0Efficiency));
                 }
 
               } else if (assocPID[0] == protonID) { // Protons
-                rMECorrRegistry.fill(HIST("hMixLambdaProton_SB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
+                rMECorrRegistry.fill(HIST("hMixLambdaProton_SB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, coll_1.centFT0C()) / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
                 if (candMass >= MassLambda0 - 8 * dGaussSigma && candMass < MassLambda0 - 4 * dGaussSigma) {
-                  rMECorrRegistry.fill(HIST("hMixLambdaProton_leftSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
+                  rMECorrRegistry.fill(HIST("hMixLambdaProton_leftSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, coll_1.centFT0C()) / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
                 } else if (candMass > MassLambda0 + 4 * dGaussSigma && candMass <= MassLambda0 + 8 * dGaussSigma) {
-                  rMECorrRegistry.fill(HIST("hMixLambdaProton_rightSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), 1. / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
+                  rMECorrRegistry.fill(HIST("hMixLambdaProton_rightSB"), deltaPhi, deltaEta, coll_1.centFT0C(), coll_1.posZ(), triggSign, associate.sign(), ratioCorrection(hCorrectionProtons, associate, coll_1.centFT0C()) / (trackEff(hEffProtons, associate, coll_1.centFT0C()) * v0Efficiency));
                 }
               }
             }
@@ -881,6 +895,26 @@ struct ThreeParticleCorrelations {
     }
   }
 
+  template <class TrackCand>
+  double ratioCorrection(TH2D** ratios, const TrackCand& track, double centrality)
+  {
+
+    double ratioCorrection = 1.0;
+    if (confRatioCorrectionSwitch) {
+      
+      int index = -999;
+      if (track.sign() > 0) {
+	index = 0;
+      } else if (track.sign() < 0) {
+	index = 1;
+      }    
+      
+      ratioCorrection = ratios[index]->GetBinContent(ratios[index]->FindBin(track.pt(), centrality));
+    }
+
+    return ratioCorrection;
+  }   
+
   template <class V0Cand>
   int v0Sign(const V0Cand& v0)
   {

From 57970da42a39ffe6dbbdc77a2df50d52d861ea80 Mon Sep 17 00:00:00 2001
From: ALICE Action Bot <alibuild@cern.ch>
Date: Sun, 21 Sep 2025 16:12:21 +0000
Subject: [PATCH 2/2] Please consider the following formatting changes

---
 .../Tasks/threeParticleCorrelations.cxx              | 12 ++++++------
 1 file changed, 6 insertions(+), 6 deletions(-)

diff --git a/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx b/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx
index 30b93813c7f..1d48979d432 100644
--- a/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx
+++ b/PWGCF/MultiparticleCorrelations/Tasks/threeParticleCorrelations.cxx
@@ -901,19 +901,19 @@ struct ThreeParticleCorrelations {
 
     double ratioCorrection = 1.0;
     if (confRatioCorrectionSwitch) {
-      
+
       int index = -999;
       if (track.sign() > 0) {
-	index = 0;
+        index = 0;
       } else if (track.sign() < 0) {
-	index = 1;
-      }    
-      
+        index = 1;
+      }
+
       ratioCorrection = ratios[index]->GetBinContent(ratios[index]->FindBin(track.pt(), centrality));
     }
 
     return ratioCorrection;
-  }   
+  }
 
   template <class V0Cand>
   int v0Sign(const V0Cand& v0)