Evaluation of measurement accuracy of h τ + τ - branching ratio at the ILC with s = 250 GeV and 500 GeV

Abstract

We evaluate the measurement accuracy of the branching ratio of h τ + τ - at s = 250 GeV and 500 GeV at the ILC with the ILD detector simulation. For the s = 250 GeV, we assume the Higgs mass of Mh = 120 GeV, branching ratio of Br(h τ + τ -) = 8.0 \ %, beam polarization of P(e-, e+) = (-0.8, +0.3), and integrated luminosity of ∫ L \ dt = 250 \ fb -1. The Higgs-strahlung process e+ e- Zh with Z e+ e-, Z μ + μ -, Z qq mode are analyzed. The measurement accuracy is calculated to be (σ · Br) / (σ · Br) = 3.5 \ %. The scaled result to Mh = 125 GeV is estimated to be 4.2 \ %. For the s = 500 GeV, we assume the Higgs mass of Mh = 125 GeV, branching ratio of Br(h τ + τ -) = 6.32 \ %, beam polarization of P(e-, e+) = (-0.8, +0.3), and integrated luminosity of ∫ L \ dt = 500 \ fb -1. The Higgs-strahlung process e+ e- Zh with Z qq mode and WW-fusion process e+ e- e e h are analyzed. The measurement accuracy is calculated to be (σ · Br) / (σ · Br) = 5.7 \ % for Higgs-strahlung with Z qq and 7.5 \ % for WW-fusion.