Probing Doubly Charged Higgs Bosons with Three-Body Associated Production at Future e+e- Colliders

Abstract

We study the discovery prospects for a doubly charged Higgs boson H in the 2-Higgs doublet model with type-II seesaw at future e+e- colliders. Focusing on the three-body channels e+e- HH1H1 and e+e- HH1W, we scan the model parameter space subject to theoretical consistency as well as current collider, flavor and electroWeak precision observables (EWPOs). We find that these 23 production modes can exceed the conventional pair-production rate e+e- H++H--, followed by H H1H1 and H1W decays, over wide regions, particularly above the H H1H1 and H H1W thresholds, reaching cross sections up to O(102)~fb for s=500--1500~GeV. A detector-level analysis of the 4 + ETmiss signature, including dominant multiboson and top quark backgrounds, shows that discovery sensitivity is achievable for s=1000-1500~GeV with integrated luminosities in the few ab-1 range, even in the presence of realistic systematic uncertainties.