Exemplo n.º 1
0
def pass_lepton_RelIso(lid, ltightId):
    """Return True if lepton passes tightID.

    Args:
        lid (int): Lepton ID.
        ltightId (bool): Tight ID.
    """
    if abs(lid) == 11:
        return ltightId
    elif abs(lid) == 13:
        if ltightId < 
        return True if 
    else:
        return False

            # We have 2 good (loose) leptons which MAY form a Z candidate.
            loose_lep_arr = []
            # Do an OSSF check:
            if (lid1 + lid2) != 0:
                if verbose:
                    print(f"Event {evt_num} failed OSSF check.")
                continue
            
            # Do we want tight Z1 leptons?
            if force_z1_leps_tightID:
                if (not ltightId1) or (not ltightId2):
                    continue
            
            lorvec_lep1 = Math.PtEtaPhiMVector(lpt1, leta1, lphi1, lmass1)
            lorvec_lep2 = Math.PtEtaPhiMVector(lpt2, leta2, lphi2, lmass2)
            z_cand = lorvec_lep1 + lorvec_lep2
            
            if (z_cand.M() < 12) or (z_cand.M() > 120):
                print(f"Event {evt_num} failed m(Z1) window.")
                continue

            # Good Z candidate! Save these lepton indices.
            z_cand_lep_ndcs.append((ndx1, ndx2))

            #  Need to check lepton kinematics (dxy, dz, SIP3D)
            # if make_valid_z1_candidate(lep1, lep2):

    # All Z1 candidates found!

    # my_lep_ls = 
    # z1_cand_ls = get_all_z1_candidates()

    # If the event made it this far, the leptons are good!
    evt_info_d["n_evts_ge4_passing_leps"] += 1
Exemplo n.º 2
0
 def get_LorentzVector(self, include_FSR=True):
     """Return a Lorentz vector version of this lepton."""
     if include_FSR:
         return Math.PtEtaPhiMVector(
                 self.lpt,
                 self.leta,
                 self.lphi,
                 self.lmass
                 )
     return Math.PtEtaPhiMVector(
         self.lpt_NoFSR,
         self.leta_NoFSR,
         self.lphi_NoFSR,
         self.lmass_NoFSR
         )
Exemplo n.º 3
0
                    if tmpJetPTTwo > jetPTCut:
                        #Counter
                        if not ifTwoBool:
                            ifTwoCount += 1
                            ifTwoBool = True
                        #Getting the eta dif between the two jets
                        tmpEtaDif = abs(ev.Jet_eta[i] - ev.Jet_eta[j])
                        #Checking if the eta dif passes the eta dif cut
                        if tmpEtaDif > jetEtaDifCut:
                            #Counter
                            if not ifThreeBool:
                                ifThreeCount += 1
                                ifThreeBool = True
                            #Getting four vectors for the two jets, using pt, eta, phi, and mass
                            tmpVecOne = Math.PtEtaPhiMVector(
                                ev.Jet_pt[i], ev.Jet_eta[i], ev.Jet_phi[i],
                                ev.Jet_mass[i])
                            tmpVecTwo = Math.PtEtaPhiMVector(
                                ev.Jet_pt[j], ev.Jet_eta[j], ev.Jet_phi[j],
                                ev.Jet_mass[j])
                            #Adding four vectors together and getting their invariant mass
                            tmpDiJetVec = tmpVecOne + tmpVecTwo
                            tmpInvMass = tmpDiJetVec.M()
                            #Checking if their InvMass passes the InvMass cut
                            if tmpInvMass > jetInvMassCut:
                                #Counter
                                if not ifFourBool:
                                    ifFourCount += 1
                                    ifFourBool = True

                                #Selecting by summed jet pt