Physics impact of ILC Higgs coupling measurements: the effect of theory uncertainties
Abstract
We study the effect of theoretical and parametric uncertainties on the ability of future Higgs coupling measurements at the International Linear Collider (ILC) to reveal deviations from the Standard Model (SM). To quantify the impact of these uncertainties we plot Delta chi2 = 25 contours for the deviations between the SM Higgs couplings and the light Higgs couplings in the mh-max benchmark scenario of the Minimal Supersymmetric Standard Model (MSSM). We consider the theoretical uncertainties in the SM Higgs decay partial widths and production cross section and the parametric uncertainties in the bottom and charm masses and the strong coupling alphas. We find that the impact of the theoretical and parametric uncertainties is moderate in the first phase of ILC data-taking (500 fb-1 at 350 GeV centre-of-mass energy), reducing the "reach" in the CP-odd MSSM Higgs mass MA by about 10% to ~500 GeV, while in the second phase (1000 fb-1 at 1000 GeV) these uncertainties are larger than the experimental uncertainties and reduce the reach in MA by about a factor of two, from ~1200 down to ~600 GeV. The bulk of the effect comes from the parametric uncertainties in mb and alphas, followed by the theoretical uncertainty in Gammab.
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