On the choice of beam polarization in e+e- ZZ/Zγ and anomalous triple gauge-boson couplings

Abstract

The anomalous trilinear gauge couplings of Z and γ are studied in e+e- ZZ/Zγ with longitudinal beam polarizations using a complete set of polarization asymmetries for the Z boson. We quantify the goodness of the beam polarization in terms of the likelihood and find the best-choice of e- and e+ polarizations to be (+0.16, -0.16), (+0.09, -0.10) and (+0.12, -0.12) for ZZ, Zγ and combined processes, respectively. Simultaneous limits on anomalous couplings are obtained for these choices of beam polarizations using Markov-Chain--Monte-Carlo (MCMC) for an e+e- collider running at s=500 GeV and L=100 fb-1. We find the simultaneous limits for these beam polarizations to be comparable with each other and also comparable with the unpolarized beam case.