Reconstruction and classification of tau lepton decays with ILD
arXiv:1510.05224
Abstract
Tau-lepton decays with up to two $Ï^0$'s in the final state, $Ï^+ \to Ï^+ \barν_Ï$, $Ï^+ (Ï^+Ï^0) \barν_Ï$, $a^+_1 (Ï^+Ï^0Ï^0) \barν_Ï$, are used to study the performance of the barrel part of the silicon-tungsten electromagnetic calorimeter (Si-W ECAL) of the International Large Detector (ILD) at the future $e^+-e^-$ International Linear Collider. A correct reconstruction of the tau decay mode is crucial for constraining the tau spin state and measuring the Higgs boson CP state in $H\to Ï^+Ï^-$ decays. About 95% of $Ï^+ \barν_Ï$ and 90% of $Ï^+\barν_Ï$ and $a^+_1\barν_Ï$ decays from $e^+e^-\to Z^0\to Ï^+Ï^-$ reaction at $e^\pm$-beam energy of 125 GeV are correctly reconstructed. In a smaller ILD detector, with Si-W ECAL radius reduced by about 20% these numbers degrade by at most 2%. The $Ï^0$ mass resolution stays below 10%. Since the failures in the tau-lepton reconstruction are mainly due to photons, the increase of the ILD magnetic field from 3.5 T to 4 T does not bring any significant improvement.