The triviality bound on the Higgs mass; its value and what it means
Abstract
Older lattice work exploring the Higgs mass triviality bound is briefly reviewed. It indicates that a strongly interacting scalar sector in the minimal standard model cannot exist; on the other hand low energy QCD phenomenology might be interpreted as an indication that it could. We attack this puzzle using the 1/N expansion and discover a simple criterion for selecting a lattice action that is more likely to produce a heavy Higgs particle. Depending on the precise form of the limitation put on the cutoff effects, our large N calculations, when combined with old numerical data, suggest that the Higgs mass bound might be around 750 GeV, which is higher than the 650~GeV previously obtained. Preliminary numerical work indicates that an increase of at least 19\% takes place at N=4 on the F4 lattice when the old simple action is replaced with a new action (still containing only nearest neighbor interactions) if one uses the lattice spacing as the physical cutoff for both actions. It appears that, while a QCD like theory could produce MH / F ~ 6, a meaningful ``minimal elementary Higgs'' theory cannot have MH/ F~ 3. Still, even at 750 GeV, the Higgs particle is so wide ( 290~GeV), that one cannot argue any more that the scalar sector is weakly coupled.
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