Walking on the Ladder: 125 GeV Technidilaton, or Conformal Higgs -Dedicated to the late Professor Yoichiro Nambu-

Abstract

The walking technicolor based on the ladder Schwinger-Dyson gap equation is studied, with the scale-invariant coupling being an idealization of the Caswell-Banks-Zaks infrared fixed point in the "anti-Veneziano limit", such that NC → ∞ with NC · α(μ2)= fixed and NF/NC= fixed ( 1), of the SU(NC) gauge theory with massless NF flavors near criticality. We show that the 125 GeV Higgs can be naturally identified with the technidilaton (TD) predicted in the walking technicolor, a pseudo Nambu-Goldstone (NG) boson of the spontaneous symmetry breaking of the approximate scale symmetry. Ladder calculations yield the TD mass Mφ from the trace anomaly as Mφ2 Fφ2= -4 θμμ = - β(α (μ2))α(μ2)\, Gλ 2(μ2) NC NF16π4 mF4, independently of the renormalization point μ, where mF is the dynamical mass of the technifermion, and Fφ= O (NF NC\, mF) the TD decay constant. It reads Mφ2 (v EW2 · 5 v EWFφ)2 · [8NF4NC], (v EW=246 GeV), which implies Fφ 5 \,v EW for Mφ 125\, GeV 12 v EW in the one-family model (NC=4, NF=8), in good agreement with the current LHC Higgs data. The result reflects a generic scaling Mφ2/v EW2 Mφ2/Fφ2 mF2 /Fφ2 1/(NF NC) → 0 as a vanishing trace anomaly, namely the TD has a mass vanishing in the anti-Veneziano limit, similarly to η meson as a pseudo-NG boson of the ordinary QCD with vanishing U(1)A anomaly in the Veneziano limit (NF/NC 1).