e+e- → ss at s = 250 GeV at future linear colliders

Abstract

The forward-backward asymmetry (AFB) in light-quark production is a sensitive probe of the electroweak sector and potential flavour-dependent BSM effects. We present a study of e+e- → ss at s=250 GeV at future linear colliders, using full ILD simulation and reconstruction tools for ILC and LCF@CERN. We assess the impact of particle identification on charge reconstruction and AFB extraction, considering software improvements using Comprehensive PID (CPID) for optimal dE/dx usage, as well as hardware scenarios including cluster counting (dN/dx) and ideal TPC performance. Statistical precision gains are evaluated, with corrections for charge misidentification and acceptance applied. Results indicate that precise AFBss measurements are feasible and that advanced PID is key to maximising sensitivity to electroweak and new-physics effects.