Probing the Zbb coupling at the Z-pole of future lepton colliders

Abstract

The determination of the Zbb coupling in experiments has been a long-standing challenge, as the limited precision of off Z-pole measurements at the LEP has resulted in two degenerate solutions remained to be resolved. In this paper, we propose a novel method to probe the Zbb coupling by measuring the forward-backward asymmetry of the bottom quark, AbFB, in the bb system of the e+ e- b b γ and/or e+ e- b b g processes at the Z-pole of future lepton colliders. The additional hard photon or light jet radiation can mimic the energy scanning of the e+e- bb process, and the A FBb distribution from the γ-Z interference process is linearly sensitive to the Zbb coupling. By combining the expected measurements of R0b and A0,bFB at the Z-pole at the CEPC, the AbFB distributions can break the degeneracy observed at the LEP, leading to a unique determination of the Zbb coupling through Z-pole running alone.