Collider Signatures of Goldstone Bosons
arXiv:1308.4235 · doi:10.1103/PhysRevD.89.015007
Abstract
Recently Weinberg suggested that Goldstone bosons arising from the spontaneous breakdown of some global hidden symmetries can interact weakly in the early Universe and account for a fraction of the effective number of neutrino species N_eff, which has been reported persistently 1 Ïaway from its expected value of three. In this work, we study in some details a number of experimental constraints on this interesting idea based on the simplest possibility of a global U(1), as studied by Weinberg. We work out the decay branching ratios of the associated light scalar field $Ï$ and suggest a possible collider signature at the Large Hadron Collider (LHC). In some corners of the parameter space, the scalar field Ïcan decay into a pair of pions with a branching ratio of order O(1)% while the rest is mostly a pair of Goldstone bosons. The collider signature would be gluon fusion into the standard model Higgs boson gg -> H or associated production with a W gauge boson q q'-bar -> H W, followed by H -> ÏÏ-> (ÏÏ) (αα), where αis the Goldstone boson.
14pages, 2 figures; corrected the formula for Higgs decay into pions; references added; accepted for PRD