Ultra-weak sector, Higgs boson mass, and the dilaton

Kyle Allison; Christopher T. Hill; Graham G. Ross

Ultra-weak sector, Higgs boson mass, and the dilaton

Kyle Allison, Christopher T. Hill, Graham G. Ross

Abstract

The Higgs boson mass may arise from a portal coupling to a singlet field $σ$ which has a very large VEV $f \gg m_\text{Higgs}$. This requires a sector of "ultra-weak" couplings $ζ_i$, where $ζ_i \lesssim m_\text{Higgs}^2 / f^2$. Ultra-weak couplings are technically naturally small due to a custodial shift symmetry of $σ$ in the $ζ_i \rightarrow 0$ limit. The singlet field $σ$ has properties similar to a pseudo-dilaton. We engineer explicit breaking of scale invariance in the ultra-weak sector via a Coleman-Weinberg potential, which requires hierarchies amongst the ultra-weak couplings.

Ultra-weak sector, Higgs boson mass, and the dilaton

Abstract

The Higgs boson mass may arise from a portal coupling to a singlet field

which has a very large VEV

. This requires a sector of "ultra-weak" couplings

, where

. Ultra-weak couplings are technically naturally small due to a custodial shift symmetry of

in the

limit. The singlet field

has properties similar to a pseudo-dilaton. We engineer explicit breaking of scale invariance in the ultra-weak sector via a Coleman-Weinberg potential, which requires hierarchies amongst the ultra-weak couplings.

Ultra-weak sector, Higgs boson mass, and the dilaton

Abstract

Ultra-weak sector, Higgs boson mass, and the dilaton

Abstract

Paper Structure