The Composite Higgs Signal at the Next Big Collider

Abstract

The Gildener-Weinberg (GW) mechanism produces a Higgs boson H that is a dilaton. That is, H is both naturally light and naturally aligned. It also predicts additional singly-charged and neutral Higgs bosons all of whose masses are < 500\, GeV and, therefore, within reach of the LHC now. I argue that the GW Higgs is composite -- a bound state of fermions whose strong interactions are at some high, unknown scale H > 1\, TeV. The lone harbingers of H compositeness, ones that may be accessible at the next multi-TeV collider, are isovector vector H and axial vector aH bound states whose masses are O(H). They decay into the only fermion-antifermion composites lighter than they are, the Higgs boson and longitudinally-polarized weak bosons: H,0 WL ZL, W+L W-L and aH,0 WL H, ZL H. Observing these resonant, highly-boosted weak-scale bosons would establish their composite nature.