Measurement of ALR using radiative return at ILC 250

Abstract

For the precision study at the ILC 250, measurement of ALR is important as it can constrain SMEFT parameters. The current best measured ALR value is ALR = 0.1514 0.0019\,(stat) 0.0011\,(syst) which was measured at the SLC, and a more precise value is required for the global fit for the new physics search in TeV-scale. At the ILC, we can use the e+ e- γ Z process to evaluate the ALR. We performed a full simulation study of the e+ e- γ Z process at the center-of-mass energy of 250 GeV and evaluated how much we can improve the precision of this observable. The statistical error on ALR at the ILC 250 turned out to be 1.8 × 10-4. Major source of the systematic error was error from the beam polarization. As other sources of the systematic error, the uncorrelated parts of error on the product of luminosity and selection efficiency for each polarization combination contribute. Including those systematic errors, total absolute error on ALR was estimated to be 0.00025, 8.8 times better precision than that from the SLC (0.00219).